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+filepath=/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf,len=661
+page_content='Optical ﬁngerprints of the electronic band reconstruction in van der Waals magnetic  materials  M.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Corasaniti†,1 R.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Yang†,1 Y.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Liu‡,2 C.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Petrovic,2 and L.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Degiorgi∗1  1Laboratorium f¨ur Festk¨orperphysik,' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' ETH - Z¨urich,' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' 8093 Z¨urich,' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Switzerland  2Condensed Matter Physics and Materials Science Department,' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  Brookhaven National Laboratory,' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Upton NY 11973,' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' USA  (Dated: January 13,' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' 2023)  We report a broadband study of the charge dynamics in the van der Waals (vdW) magnetic  materials 2H-MxTaS2 (M = Mn and Co),' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' which span the onset of both long-range antiferromagnetic  (AFM) and ferromagnetic (FM) order,' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' depending on the intercalation M and its concentration x.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  We discover a spectral weight (SW) shift from high to low energy scales for FM compositions, while  reversely SW is removed from low towards high spectral energies for AFM compounds.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' This maps  the related reconstruction of the electronic band structure along the crossover from the FM to AFM  order, which restores an occupation balance in the density of states between spin majority and  minority bands of the intercalated 3d elements.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  Understanding the physical mechanism as well as  functionalities of van der Waals (vdW) heterostructures  and electronic/spintronic devices is at present a cen-  tral topic of the ongoing solid state physics research  activities [1].' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  In this context, Fe3GeTe2 and MnSe2  are prototype examples [2, 3] of two-dimensional vdW  magnets.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  The discovery of such a long-range mag-  netism lately boosted the several decades long investiga-  tion of the (mostly non-magnetic) vdW transition-metal  dichalcogenides (TMDCs) with appropriate magnetic in-  tercalations.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  This enlarges the fundamental studies of  low-dimensional magnetism and provides a platform for  questing the nature of the critical behaviour of the spin  interactions, ranging from Heisenberg and XY to Ising  type [1].' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  The TMDC materials of general formula TX2 (e.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='g.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=',  with T = Nb, Ta and X = Se, S) consist of layered-  like sandwiches held together by relatively weak forces  across the vdW gaps, within which intercalation may oc-  cur.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' The latter is notably accompanied by charge transfer  between the intercalated species and the host layer but  is not supposed to change the local bonding within the  sandwich layers, so that the electronic properties of the  host TMDC materials could be treated within the rigid-  band model and consequently be ﬁne-tuned depending  on the eﬀective d-bands ﬁlling.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Such a controllable de-  gree of band ﬁlling seems to be a feature quite unique to  low-dimensional structures [4, 5].' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  In this work, we focus our attention on the 2H-MxTaS2  compounds with M = Co and Mn.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' While the possibil-  ity to intercalate TMDCs with magnetic 3d elements M,  exhibiting diverse magnetic properties, is known since  the eighties, their physical properties have been only ad-  dressed recently [6–8].' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  Any intercalation with atoms,  that tend to preserve local moment when embedded in a  metallic host, induces long range magnetic order [9, 10].' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  This is diﬀerent from the simple charge transfer that oc-  curs upon intercalation of non-magnetic atom such as Pd  or Li, and which commonly perturbs the charge-density-  wave (CDW) and enhances superconductivity [11, 12].' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  The pristine 2H-TaS2 compound is in fact a familiar  CDW material [13] and the peculiarities with respect to  its broken-symmetry ground state are amply documented  in the literature.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' The (magnetic) Co and Mn intercala-  tion (Fig.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' S1 in Supplemental Material (SM) [14]), be-  sides removing the CDW transition, expands the vdW  gap of the 2H-MxTaS2 crystals along the c-axis (i.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='e.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=', or-  thogonal to the layers) and should result in an electronic  doping via hybridization with atoms around the vdW  gap [8].' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' This induces a ferromagnetic (FM) state with  an easy-plane anisotropy in 2H-MnxTaS2 [7, 15–19].' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' For  Co-intercalation, ferromagnetism with strong uniaxial  anisotropy in 2H-Co0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='22TaS2 [6] and a three-dimensional  antiferromagnetic (AFM) state in 2H-Co0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='34TaS2 [20]  have been ﬁrmly established.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' The evolving FM to AFM  transition promoted by the Co-intercalation and the re-  lated sign-change of the ordinary Hall coeﬃcient hint  to an electronic multi-band occurrence and its recon-  struction based on the magnetic ground state [8].' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' The  temperature-dependent electrical resistivity (ρ(T)) dis-  plays an overall metallic behaviour for all samples (Fig.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  S2 in SM [14]).' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' A clear kink in ρ(T), a weak anomaly  in thermal conductivity, as well as a slope change in  thermopower were yet observed at the magnetic transi-  tions for 2H-Mn0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='28TaS2 (TC ∼ 82 K) and 2H-Co0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='34TaS2  (TN ∼ 36 K), albeit weaker for crystals with lower con-  centration x [8].' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  From a spectroscopic point of view, these materials  are still not comprehensively scrutinised.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Here, we inves-  tigate the temperature (T) dependence of the (in-plane)  absorption spectrum [21] over a broad spectral range of  both Co-and Mn-intercalated 2H-MxTaS2.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' 2H-CoxTaS2  harbour a distinct and reverse spectral weight (SW)  reshuﬄing with regard to the FM and AFM transition at  TC and TN, respectively.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' The overall optical response of  the FM Co-intercalated materials (i.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='e.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=', x ≤ 0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='22) copies  with the data collected on the Mn compositions, which all  refer to a FM state.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' We supply arguments, which favour  a reconstruction of the electronic band structure upon  crossing over from the FM to AFM order with increas-  Typeset by REVTEX  arXiv:2301.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='04898v1  [cond-mat.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='mtrl-sci]  12 Jan 2023  2  ing Co-concentration, bearing testimony to the progres-  sive lifting of the occupation imbalance in the density of  states between spin majority and minority bands of the  intercalated 3d elements.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  We launch ﬁrst the survey about the T dependence of  the real part (σ1(ω)) of the optical conductivity, shown in  Figs.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' 1(a-c) for three selected Mn- and Co-concentration  in the energy interval spanning the far- (FIR), mid-  (MIR) and near- (NIR) infrared up to the visible spec-  tral ranges at 5 or 10 and 300 K.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' We refer to SM in  Ref.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' 14 for further details and additional data for other  concentrations.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' The selected compositions are particu-  larly pertinent, since they encompass both the FM and  AFM magnetic phase transitions for the Co-intercalation  and address a representative Mn compound towards its  FM one (Table I in SM [14]).' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' There is a metallic Drude-  like component, which gets narrow as well as robust upon  lowering T (i.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='e.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=', it generally gains SW, see below).' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' It  merges into a broad and T-dependent MIR absorption  between 1000 and 3000 cm−1 [14].' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  In order to focus the discussion on the impact of  the magnetic phase transition on the electronic proper-  ties, we propose their phenomenological Drude-Lorentz  ﬁt [14], which is singled out for the spectra at 5 or 10  and 300 K in Figs.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  1(a-c).' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  The chosen layout of the  collected data allows to emphasise the SW redistribu-  tion and its evolution as a function of T among the  Lorentz (Li, i = 1 to 9) harmonic oscillators (HO).' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' In  general, SW of the optical conductivity corresponds to  its integral SW(T) = Z0  π2  � ω2  ω1 σ1(ω′;' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' T)dω′, expressed in  units of cm−2 (Z0 = 376.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='73 Ω, being the impedance of  free space) [21].' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' ωi (i = 1 and 2) deﬁne the energy in-  terval, relevant for the SW estimation.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Ahead, we al-  ternatively propose to identify speciﬁc energy intervals  via the phenomenological ﬁt components, for which the  related SW corresponds to the square of the (Drude)  plasma frequency or of the (Lorentz) HO strength (i.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='e.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=',  ω2  p,Di or Ω2  j in Eq.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  (S1) in SM [14]).' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  As elaborated  in SM [14], the metallic part of σ1(ω) necessitates of two  Drude terms for the Co-intercalated materials, thus spot-  ting the multiband nature of their electronic structure,  while the Mn-intercalated compositions feature a single  Drude component.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' The resulting global Drude SW (i.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='e.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=',  SW = �  i ω2  p,Di, i ranging over the number of contem-  plated Drude terms) will be anyhow at the centre of our  attention.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  The main ﬁndings of our work are summarised in Fig.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  1(d-f).' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' First, in all compounds the T dependence of the  plasma frequencies (Fig.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' S8 in SM [14]) is such that the  total Drude SW either barely changes or moderately in-  creases upon lowering T.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' For the Co-compositions, this  also pairs with an additional SW accumulating into the  high frequency tail of the purely metallic response (rep-  resented by HO L1, Figs.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' 1(b-c) and S7(b) in SM [14]).' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  Such an enhancement results from a shift of SW from  higher energy scales.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' For the Mn-compounds, the Drude  tail is given by the combination of HO L1 and L2 (Fig.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  1(a) and S7(a) in SM [14]), which equally suﬀer a SW  reordering among them and in favour of the Drude term.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  The SW reshuﬄing aﬀecting the Drude term and even-  tually its high-energy tail turns out though to be rather  residual, compared to the SW redistribution at higher  energies (as e.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='g.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' emphasised by the inset in Fig.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' 1(d)  as well as in Fig.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' S7(c) in SM [14]).' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Second and even  more relevant for our discussion, there is an opposite  and strong redistribution of SW between HO L2 and L3  depending on whether a FM or AFM transition (Figs.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  1(b-c)) takes place for the Co-intercalated compounds.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  For the Co-concentration x = 0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='22, HO L3 losses SW,  which merges almost totally in HO L2 upon crossing TC  (Fig.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' 1(e)).' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' The trend in the SW removal and reallo-  cation across the FM transition as observed in the Co-  intercalated composition is similarly conﬁrmed by the ob-  servations in the Mn-intercalated ones (e.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='g.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=', for x = 0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='09  and 0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='19 in Fig.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' 1(d) and Fig.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' S7(c) in SM [14], respec-  tively).' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' On the contrary, for the AFM Co-concentration  x = 0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='34 we principally encounter a progressive and grad-  ual shift of SW from HO L2 towards HO L3 upon ap-  proaching TN from high T (Fig.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' 1(f)).' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' An equivalent  incidence is observed for the x = 0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='26 Co-intercalation  (Fig.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' S7(d) in SM [14]), so that the SW reshuﬄing for  the AFM transition is fully exploited and leans towards a  constant behaviour pattern below TN.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Summarising, we  overall discern a mostly incremental SW redistribution  at FIR and MIR-NIR energy intervals upon approaching  the magnetic phase transition from high T, which then  tends to saturate into the magnetic state (i.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='e.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=', at T < TN  or TC).' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Additionally, a change of slope in ∆SW(T) is ob-  served in all compositions at T ranging between ∼ 100  and 250 K.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' This is noted by T ∗ (black arrows in Figs.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  1(d-f) and S7(c-d) in SM [14]).' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  The resulting kink in  ∆SW(T) is smooth in the Mn-intercalated materials and  rather abrupt and sudden in the Co-ones (at least for x  = 0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='22 (Fig.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' 1(e)) and 0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='26 (Fig.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' S7(d) in SM [14]) and  somehow stepwise for x = 0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='34 (Fig.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' 1(f)).' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' These ob-  servations fairly agree with similar ﬁndings (as kink or  upturn around T ∗) in the measured T dependence of the  in-plane thermopower and total thermal conductivity as  well as Hall resistivity [8].' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' The origin of these peculiari-  ties and their link to the advanced multiband nature of  these materials need to be better understood, as oﬀered  here from the optical perspective.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  The SW distribution and its evolution upon crossing  TC or TN seems to be a common property for both Co  or Mn intercalations and is exclusively driven by the tar-  geted, ﬁnal magnetic state (i.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='e.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=', independent of the el-  ement choice).' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Moreover, the encountered shift of SW  occurs at FIR-MIR energy scales up to the NIR spectral  range, while at visible and ultra-violet frequencies SW is  constant at any T (grey shaded areas in Figs.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' 1(a-c) and  Figs.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' S7(a-b) in SM [14]).' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' This also means that the full  recovery of SW is achieved at about 1 eV.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Nonetheless,  the opposite SW allocation discovered upon lowering T  through either a FM or AFM transition (see rounded ar-  rows in Figs.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' 1(a-c) and Figs.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' S7(a-b) in SM [14]) calls  for a yet diﬀerent reconstruction of the related electronic  3  Temperature (K)  0  100  200  300–6  –4  –2  0  2  4  6  ΔSW(T) [×107 (cm)-2]  Co0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='34TaS2  Drude  L1  L2  L3  (f)  –12  –8  –4  0  4  8  12  ΔSW(T) [×107 (cm)-2]  Co0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='22TaS2  Drude  L1  L2  L3  (e)  101  102  103  104  0  3  6  Frequency (cm-1)  σ1(ω) [×103 (Ωcm)-1]  Co0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='34TaS2 (TN = 36 K)  10 K  Fit 10 K  300 K  Fit 300 K  L1  L2  L3  Drude  L4-9  (c)  0  2  4  6  σ1(ω) [×103 (Ωcm)-1]  Co0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='22TaS2 (TC = 26 K)  10 K  Fit 10 K  300 K  Fit 300 K  (b)  Drude  L1  L2  L3  L4-9  –2  –1  0  1  2  ΔSW(T) [×107 (cm)-2]  Mn0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='09TaS2  Drude  L1  L2  L3-L4  L5-L6  (d)  0  100 200 300  –0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='04  0  0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='04  10–2  10–1  100  0  1  σ1(ω) [×103 (Ωcm)-1]  Mn0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='09TaS2 (TC = 11 K)  5 K  Fit 5 K  300 K  Fit 300 K  (a)  Energy (eV)  Drude L1  L2  L3  L4  L5  L6  L7-9  Figure 1.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' (a-c) In-plane σ1(ω) below 4×104 cm−1 (1 eV = 8.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='06548×103 cm−1, please note the logarithmic energy scale) at  5 or 10 and 300 K together with their respective total Drude-Lorentz ﬁt (thick dashed line) after Eq.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' S1 in SM [14], and  (d-f) T dependence of the SW relative variation with respect to 300 K, i.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='e.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=', ∆SW(T) = SW(T) − SW(300 K) for selected  ﬁt components (see legend in panels (a-c)) of 2H-MxTaS2 (M = Mn and Co): (a,d) x = 0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='09 (FM) Mn-concentration, and  (b,e) x = 0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='22 (FM) as well as (c,f) x = 0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='34 (AFM) Co-concentration.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Panels (a-c) explicitly show all ﬁt components: the  total Drude and Lorentz (Li, i = 1 to 9) HOs [14].' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' The coloured shaded areas emphasise SW encountered by each component  (reddish and blueish colours refer to 300 and 5 or 10 K, respectively, while the grey shaded area corresponds to SW being  T-independent).' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' The rounded arrows in panels (a-c) highlight the direction in energy of the SW reshuﬄing upon lowering T,  which is stronger with thicker arrows.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' The inset in panel (d) is a blow-up of ∆SW for the total Drude term and HOs L1 and  L2.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' The vertical dashed and dotted lines in panels (d-f) mark TC and TN (see Table I in SM [14]), respectively.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' The error bars  in ∆SW(T) correspond to the direct propagation of the error in the HOs strength, estimated numerically within the non-linear  least-squares ﬁt technique.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' The vertical black arrows in panels (d-f) indicate T ∗, as the onset of the faster ∆SW(T) variation  upon lowering T.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Additional data with similar analysis are available in Fig.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' S7 in SM [14].' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  band structure, upon which we wish to argue for the rest  of our paper.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  4  EF  E  DOS  DOS  FM  AFM  MIR-NIR  energy scales  FIR  energy scales  Figure 2.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Proposal for DOS particularly emphasising the in-  terband transitions grouping around the characteristic FIR  energy scales of 0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='05-0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='2 eV (i.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='e.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=', between the blue bands)  and MIR-NIR ones of 0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='3-0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='5 eV (i.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='e.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=', between the red bands).' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  The trend in the related transition probability (i.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='e.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=', SW re-  distribution of the proposed interband excitations) is indi-  cated by the arrows thickness (violet vertical arrows for the  FM state and green vertical arrows for the AFM state).' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' The  colour code of the arrows is in accord with the convention  used for the SW reshuﬄing in the AFM and FM state of  Figs.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' 1(a-c) and Figs.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' S7(a-b) in SM [14].' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  Figure 2 schematically depicts the density-of-states  (DOS), factual for the alleged progression of the inter-  band transition probability upon lowering T across the  FM and AFM transitions.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' The charge dynamics and the  evolution of its stored SW convey the presence of in-  terband transitions grouping within two distinct spectral  intervals, i.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='e.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=', at FIR resonance energies between 50 and  200 meV (i.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='e.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=', involving the blue bands in Fig.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  2) as  well as at MIR-NIR ones between 300 and 500 meV (i.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='e.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=',  involving the red bands in Fig.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  2).' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  These ranges are  described by the combination of HOs L3-L4 and L5-L6  for the Mn-intercalated material and L2 and L3 for the  Co-intercalated compositions (Figs.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' 1(a-c)), respectively.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  The thickness of the coloured (vertical) arrows in Fig.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' 2  mimics the strength (i.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='e.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=', SW) of those two possible in-  terband transitions, which alike discriminate between the  two magnetic states.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Below TN, the (convoluted) MIR-  NIR transition is stronger than the lower FIR one, while  the opposite seems to apply below TC.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  The characteristic ingredients pertinent to the recon-  struction of the electronic band structure, depicted in  Fig.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' 2 and then driving the SW redistribution observed  in σ1(ω) (Fig.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' 1 and Fig.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' S7 in SM [14]), embrace several  ﬁndings and achieved knowledge on related, sister mate-  rials.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' First of all and from a general perspective, the FM  state in both Mn- and Co-intercalated 2H-TaS2 has been  tentatively reconciled within a Ruderman-Kittel-Kasuya-  Yosida interaction scenario [6–8], in which the local spins  of intercalated Mn and Co ions align ferromagnetically  through the itinerant Ta 5d electrons, as initially pro-  posed for the related Co-intercalated 2H-NbS2 material  [22].' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  Further, it is speculated that Co atoms tend to  hybridise more strongly with the electronic states associ-  ated with covalently bonded structural subunit (i.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='e.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=', Ta  and S) when intercalated in the vdW gap.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' By enlarg-  ing the Co concentration, this leads to a suppression of  the spontaneous magnetic moment and to a stronger ten-  dency for AFM exchange coupling parameters [8, 23].' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  Along this line of thoughts, the FM to AFM crossover,  hither studied upon changing the intercalation and con-  tingently the concentration of the intercalated Co atom,  can be also achieved after two alternative ways: either  by diﬀerentiating the element-intercalation at given con-  centration or by applying pressure on a selected inter-  calated compound.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' It is experimentally known that the  structurally equivalent 2H-NbS2 compound [24], inter-  calated with 3d elements Cr, Mn and Fe for the con-  centration 1/3, exhibits a variety of magnetic states,  (roughly) classiﬁed as FM for the Cr and similarly Mn  materials [20, 25–27] and as AFM for the Fe composi-  tion [20, 28, 29].' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  The ﬁrst-principles electronic band  structure calculations that have been performed us-  ing the fully relativistic Korringa-Kohn-Rostoker Green  function method [30] have pointed out the complex-  ity of their magnetic ordering.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  For Cr1/3NbS2 and  Mn1/3NbS2, the in-plane magnetocrystalline anisotropy  and Dzyaloshinskii-Moriya interactions give rise to a heli-  magnetic structure along the c-axis, following the experi-  mental observations [25, 26].' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' On the other hand, the neg-  ative exchange interactions in the Fe1/3NbS2 compound  result in a noncollinear frustrated magnetic structure if  the magnetocrystalline anisotropy is not taken into ac-  count.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' However, a strong magnetocrystalline anisotropy  along the c-axis does lead to a magnetic state referred to  as an ordering of the third kind, which was indeed deter-  mined experimentally [20, 28, 29].' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' This may be pinned  down to the diverse DOS with respect to the magnetic  state in these series of compounds.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' For all compounds,  DOS is rather large for the majority-spin states at the  Fermi energy (EF ).' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' In the case of minority-spin states of  Cr1/3NbS2 and Mn1/3NbS2, one can however observe a  pseudogap between the occupied and unoccupied states  [23, 30].' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Such an imbalance then leads to the FM ground  state.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  In the case of Fe1/3NbS2, EF is located at the  DOS maximum corresponding to the Fe minority-spin d  states.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' DOS is thus ﬁnite for both spin directions, which  facilitates an AFM ground state [30].' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' This latter trend  is reﬂected in the isotropic exchange coupling parameter  for the three compositions, which is predominantly posi-  tive for the Cr and Mn compounds (i.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='e.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=', promoting FM)  but negative (i.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='e.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=', leading to AFM) for Fe-Fe interactions  at short distance [30].' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  In turn, one can induce the crossover from the FM to  5  AFM state in Mn1/4NbS2 upon applying pressure [31].' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  This possibility is instrumental, in order to better jus-  tify and support our schematic proposal in Fig.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' 2.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Fo-  cusing the attention on the spin-resolved DOS on Mn  sites, which is foremost contributed by the d-orbitals, the  majority-spin states are almost occupied around both the  Γ and K points in the Brillouin zone at ambient pressure,  while the minority-spin states, essentially around the K  point of the Brillouin zone, are unoccupied.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' This favors  FM and further implies a dominating hole-type charac-  ter of the electric carriers and a positive slope of the Hall  resistivity [31].' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Interband transitions within the FIR en-  ergy interval (so roughly peaked at 100 meV) are fore-  seen from the electronic band structure at both Γ and  K points of the Brillouin zone [31] and should play the  most prominent role in σ1(ω).' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Figure 2 catches a glimpse  of such a trim for our FM compositions (Figs.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  1(a-b)  and S7(a) in SM [14]).' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Conversely, the pressure increase  results in the broadening of the energy bands, which  premises an occupation of the bottom of the minority-  spin states (having mainly dx2−y2 and dxy character)  and a draining of the top of minority-spin states (pri-  marily of dxzand dyz character) at the K point of the  Brillouin zone in Mn1/4NbS2 [31].' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' This is accompanied  by a decrease of the exchange splitting of the majority-  and minority-spin d-states of Mn, which potentially turns  negative for the ﬁrst neighbour interaction, as the prereq-  uisite for an AFM alignment of the magnetic moments  in the absence of any other interactions.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' In fact, such  a setting is translated into an electron-like character of  the ordinary Hall eﬀect [31].' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' By inspecting the result-  ing electronic band structure in the AFM state [31], we  recognise the most cogent consequence for the excitation  spectrum: namely, low energy FIR interband transitions  are less probable, while the probability for high energy  ones at MIR and NIR frequencies (i.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='e.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=', settled around  400 meV) increases sensitively, as evinced in σ1(ω) (Figs.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  1(c) and S7(b) in SM [14]) and as also sketched in Fig.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  2 for our case.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Therefore, we claim that the band recon-  struction in Mn1/4NbS2 upon applying pressure is imple-  mentable to 2H-CoxTaS2 with respect to the FM-AFM  crossover as a function of x, as backed up by the same  sign-change of the ordinary Hall coeﬃcient upon varying  the magnetic ground state [8, 31].' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  In conclusion, the charge dynamics of 2H-MxTaS2 (M  = Mn and Co) allows to determine a distinct SW re-  distribution and to shed light on the relevant energy  scales shaping the reconstruction of the electronic band  structure upon crossing over from the FM to AFM order  with varying intercalation (i.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='e.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=', element and/or its con-  centration).' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Our spectroscopic ﬁndings seem to be con-  sistent with dedicated ﬁrst-principles calculations upon  tuning element-intercalation, pressure and/or magnetic  ﬁeld on similar intercalated materials.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' The applicability  of the proposed comparison is validated by the fact, that  the quoted calculations do tackle the impact of (similar)  magnetic transitions on the electronic band structure of  equivalent materials, seemingly reﬂected in the charge  dynamics of our compositions, too.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  Summing up, the signiﬁcance of this work consists  in the ﬁrst instance in the systematic investigation of  2H-TaS2 with diﬀerent intercalations and across distinct  magnetic transitions, hence widening out a previous,  more restricted attempt [32] and possibly challenging the  so far broadly accepted implementation of the rigid-band  model.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  Moreover, since the continuous change of the  dominant magnetic exchange controls the FM to AFM  switching and being its impact mapped onto the easily  accessible FIR-MIR-NIR spectral range, one may exploit  our straightforward (broadband) experimental tool also  as a function of alternative tuneable variables than  chemical-intercalation, which would thoroughly ﬂash on  the overall consistency of the emerging physical picture.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  Finally, the present work demonstrates a feasible route  towards understanding magnetism in low dimensions  and may help in revealing robust properties, relevant  for the development of low-power spin-logic circuits  from layered materials [6].' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' The possibility of integration  of FM is generally of interest for spintronics, so that  novel fabrication of low-dimensional heterostructures  might be envisaged and motivated, as well;' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' the few-layer  graphene/2H-TaS2 heterostructures with robust spin-  helical state [33] is already a promising development  and the recent discovery of one-dimensional vdW (yet  non magnetic) heterostructures [34] and multi-walled  2H-TaS2 nanotubes [35] may open new avenues.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Since  exotic phenomena such as skyrmions and magnetic  solitons [36, 37] were recently discovered in 2H-TaS2-  based vdW magnets, our results may therefore help to  eﬃciently tune their properties for further applications.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  ACKNOWLEDGEMENTS  Work at Brookhaven National Laboratory was sup-  ported by the U.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='S.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Department of Energy, Oﬃce of  Basic Energy Science, Division of Materials Science  and Engineering, under Contract No.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  DE-SC0012704  (materials synthesis).' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  † Authors M.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='C.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' and R.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='Y.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' contributed equally to the  work.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  ‡ Present address: Los Alamos National Laboratory,  Los Alamos, New Mexico 87545  ∗ Correspondence and requests for materials should be  addressed to: L.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Degiorgi, Laboratorium f¨ur Festk¨orper-  physik, ETH - Z¨urich, 8093 Z¨urich, Switzerland;' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' email:  degiorgi@solid.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='phys.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='ethz.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='ch.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  6  [1] W.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Zhang, P.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' K.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' J.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Wong, R.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Zhu,  and A.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' T.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' S.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Wee,  InfoMat 1, 479 (2019).' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  [2] Y.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
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+page_content=' Song, J.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Zhang, N.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Z.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Wang, Z.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Sun,  Y.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
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+page_content=' Z.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Wu, S.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Wu, J.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Zhu, J.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Wang, X.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' H.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Chen,  and Y.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Zhang, Nature 563, 94 (2018).' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
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+page_content=' O’Hara, T.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
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+page_content=' H.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Trout, A.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' S.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
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+page_content=' K.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
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+page_content=' H.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
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+page_content=' R.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
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+page_content=' Rajan, J.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' A.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Gupta,  D.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' W.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' McComb, and R.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' K.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Kawakami, Nano Letters 18,  3125 (2018).' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  [4] S.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' S.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' P.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Parkin and R.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' H.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
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+page_content=' Yoﬀe, Advances in Physics 36, 1 (1987).' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
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+page_content=' Liu, Z.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Hu, E.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Stavitski, K.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Attenkofer, and C.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
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+page_content=' Rev.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
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+page_content='  [7] Y.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Liu, Z.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Hu, E.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Stavitski, K.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Attenkofer, and C.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Petro-  vic, Phys.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
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+page_content='  [8] Y.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Liu, Z.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Hu, X.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Tong, E.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' D.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Bauer, and C.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
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+page_content=' Zhang, C.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
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+page_content=' N.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
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+page_content='-X.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Zhang, Ad-  vanced Materials 33, 2101131 (2021).' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
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+page_content='48550/ARXIV.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='2210.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='07740.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
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+page_content=' Polesya, H.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Ebert,  and W.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Bensch,  Phys.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Rev.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
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+page_content=' Mankovsky, H.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
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+page_content=' A.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  ElGhazali, W.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Schnelle, S.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Medvedev, S.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Mangelsen, and  W.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Bensch, Phys.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Rev.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
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+page_content=' T.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
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+page_content=' Hu, C.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Petrovic, E.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Morosan,  R.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' J.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
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+page_content=' Fang, and N.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' L.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
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+page_content=' Rev.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
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+page_content=' Zhang, G.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
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+page_content=' Shin, H.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
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+page_content=' Kim, T.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Jin, S.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
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+page_content=' Kim, J.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
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+page_content=' Ferreira, and S.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
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+page_content=' Liu,  D.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
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+page_content=' Guo,  K.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
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+page_content=' Yotsumoto,  T.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Ogamoto,  H.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Arai,  Y.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  Kobayashi,  H.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  Zhang,  B.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
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+page_content='  Anisimov,  M.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
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+page_content=' Wu, X.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' H.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Chen,  and N.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' L.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Wang, Phys.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Rev.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' B 76, 045103 (2007).' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  [39] L.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Z.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Maulana, Z.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Li, E.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Uykur, K.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Manna, S.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Polatkan,  C.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Felser, M.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
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+page_content=' V.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
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+page_content=' Rev.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' B  103, 115206 (2021).' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  [40] M.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Corasaniti, R.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Yang, K.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Sen, K.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Willa, M.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Merz, A.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' A.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  Haghighirad, M.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Le Tacon, and L.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Degiorgi, Phys.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content=' Rev.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}
+page_content='  B 102, 161109 (2020).' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNE4T4oBgHgl3EQfGwzZ/content/2301.04898v1.pdf'}