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values | date timestamp[us]date 2022-09-02 02:02:49 2023-09-26 11:45:36 |
|---|---|---|---|---|---|---|
Visualisation of the relation \eqref{maintool}. The diagram on the left corresponds to the $N$-pt necklace block. One is represented as a sum of the $(N+2)$-pt comb channel blocks with two additional operators $\partial^m \cO_{\alpha}$. Red dots are depicted derivatives with respect to $z_0$ and $z_{N+1}$. | \documentclass[11pt]{article}
\usepackage[centertags]{amsmath}
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\usepackage{color}
\usepackage{tkz-euclide}
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\usetikzlibrary{po... | "JVBERi0xLjUKJcK1wrYKCjEgMCBvYmoKPDw+PgplbmRvYmoKCjIgMCBvYmoKPDw+PgplbmRvYmoKCjMgMCBvYmoKPDwvcGdmcHJnYlsvUGF0dGVybi9EZXZpY2VSR0JdPj4KZW5kb2JqCgo0IDAgb2JqCjw8L0NvbG9yU3BhY2UgMyAwIFIvUGF0dGVybiAyIDAgUi9FeHRHU3RhdGUgMSAwIFIvRm9udDw8L0YzMyA3IDAgUi9GMzYgOCAwIFI+Pi9Qcm9jU2V0Wy9QREYvVGV4dF0+PgplbmRvYmoKCjUgMCBvYmoKPDwvVHlwZS9... | https://arxiv.org/abs/2302.10153 | arxiv | 2023-02-21T02:32:18 | |
A path RGP $Q$ with arc-labels in $\{a,a^+\}$ (doubled arcs are labeled ``$a^+$'', the others are labeled ``$a$'') and the corresponding two-arc-labeled digraph $D(Q)$. | \documentclass[10pt,a4paper]{article}
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A quantum causal model with endogenous nodes $\bm{A} = \{A,B\}$, and exogenous node $\Lambda$. | \documentclass[fullpage]{article}
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Example of utility functions for different skill levels when $x_j(t)=10$ and $\tilde{\ell}_j(t)=1$. | \documentclass[nohyperref]{article}
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Matchstick graphs with $n=3k^2+3k$ vertices, $n_3=6$, $n_4=6(k-1)$ and $n_5=3k^2-3k$. | \documentclass[a4paper,11pt, reqno]{amsart}
\usepackage{tikz}
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% {\color{black}Polyhedrons illustration. The solid lines represent the convex hull of feasible solutions of $\textsc{Ilp1}$, denoted $\mathcal M$, whose vertices are feasible integer solutions (black vertices). The dashed lines represent the convex hull of feasible solutions of the linear relaxation of $\textsc{Ilp1}$... | \documentclass[11pt,a4paper]{article}
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A six-crossing unknot that satisfies the assumptions of Lemma \ref{lemma:path2} together with the enhanced states $S_i$ and $T_j$ for $1\leq i,j\leq 5$. | \documentclass[11pt]{amsart}
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The sets of implementable outcomes for observable and unobservable seller types when low value equals 1, high value equals 2, and types are uniformly distributed on $[0,1]$. The horizontal axis and vertical axis represent the ex ante expected payoffs of the buyer and the seller, respectively. | \documentclass[12pt]{article}
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An example illustrating how the second group of deviant strategies causes slowdown: on the left is the initial state, the deviant pool has a lead of 2 blocks ($B_{d1}$ and $B_{d2}$), both of which are unpublished. When an honest miner successfully mines a block, the deviant pool publishes its blocks, causing the block ... | \documentclass[runningheads]{llncs}
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inner sep=0pt,mi... | "JVBERi0xLjUKJcK1wrYKCjEgMCBvYmoKPDw+PgplbmRvYmoKCjIgMCBvYmoKPDw+PgplbmRvYmoKCjMgMCBvYmoKPDwvcGdmcHJnYlsvUGF0dGVybi9EZXZpY2VSR0JdPj4KZW5kb2JqCgo0IDAgb2JqCjw8L0NvbG9yU3BhY2UgMyAwIFIvUGF0dGVybiAyIDAgUi9FeHRHU3RhdGUgMSAwIFIvRm9udDw8L0YyNyA3IDAgUi9GMjMgOCAwIFIvRjI2IDkgMCBSPj4vUHJvY1NldFsvUERGL1RleHRdPj4KZW5kb2JqCgo1IDAgb2J... | https://arxiv.org/abs/2304.06313 | arxiv | 2023-04-14T02:10:27 | |
By \Cref{qmuneqlambda} the starting point of a non-swappable edge in the $\alpha_2$-direction must lie in the red or in the orange region. We further show in \Cref{mu1<lam1} that actually a starting point of a non-swappable edge can only be in the red region. | \documentclass{article}
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... | "JVBERi0xLjUKJcK1wrYKCjEgMCBvYmoKPDwvcGdmQGNhMC40PDwvY2EgLjQ+Pj4+CmVuZG9iagoKMiAwIG9iago8PD4+CmVuZG9iagoKMyAwIG9iago8PC9wZ2ZwcmdiWy9QYXR0ZXJuL0RldmljZVJHQl0+PgplbmRvYmoKCjQgMCBvYmoKPDwvQ29sb3JTcGFjZSAzIDAgUi9QYXR0ZXJuIDIgMCBSL0V4dEdTdGF0ZSAxIDAgUi9Gb250PDwvRjI2IDcgMCBSL0YyMiA4IDAgUi9GMjMgOSAwIFIvRjI5IDEwIDAgUj4+L1Byb2N... | https://arxiv.org/abs/2303.15560 | arxiv | 2023-03-29T02:03:04 | |
Tree of the study for $j_1\neq 0$, $b_{01}^2+b_{02}^2\neq 0$ and $S\neq const$ | \documentclass[12pt,preprint]{elsarticle}
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The front projection of the singular Legendrian diagram $\mathscr{D}$ associated to a family of functions $K_t$. The $p$ coordinate is the slope of the front. | \documentclass[12pt]{amsart}
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Hasse diagram of the Bj\"{o}rner's example. The labeling is given by the shelling order $C$ of Example \ref{esempio Bjorner}. | \documentclass[a4paper,11pt]{article}
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The collection of line operators can realize the symmetry projectively (on the Hilbert space on $S^{d}$), while the action of $G$ symmetry that permutes the label of lines is linear. | \documentclass[12pt]{article}
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$\mathcal{G}_{(1^4,2),1}=\mathcal{G}_{S(3^2)>Q_8}$ | \documentclass[12pt]{article}
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Diagram 6. Diagram for $\langle x^G \rangle$. The letters near the elements indicate their names.\newline Additionally, we write the permutations corresponding to embedding into $S_5$. | \documentclass[12pt,a4paper]{article}
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A diagram $D$ of the knot $9_{43}$ and the cycle decomposition $\mathcal{C}$ of $\Gamma(D)$ induced by the all-$A$ state of $D$. The diagram $D$ is $A$-adequate and has two negative crossings; the negative crossings correspond to sinks or sources in $\mathcal{C}$. | \documentclass[11pt]{amsart}
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On the left, a graph $G$ that does not admit a $\mathfrak g_5^1$. On the right, the first homothetic refinement $G^{(1)}$, together with a $\mathfrak g_5^1$. | \documentclass[11pt]{amsart}
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$G\tilde{\circ}(\overline{K}_3,\overline{K}_4,\overline{K}_4,\overline{K}_4,\overline{K}_5,\overline{K}_6,\overline{K}_4,\overline{K}_5,\overline{K}_5) $ | \documentclass[preprint,12pt]{elsarticle}
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\usepackage{tikz}
\usetikzlibrary{backgrounds}
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An example of graph with super-exponential number of s-t paths depending on the number of nodes. The graph is made of $\sqrt n$ layers of $\sqrt n$. Each unlabelled edge has a unit weight. The number of $s-t$ path is then $(\sqrt n)^{\sqrt n}$. | \documentclass[english,11pt]{article}
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The supports of the polynomial $f(X) = 1 + x^{-1}y^{-1} + x^{-1}y^{1} + x^{1}y^{-1} + x^{1}y^{1}$ and its dilations $f(X^2)$ and $f(X^3)$. | \documentclass[12pt]{article}
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qMERA circuit considered in this article for $8 = 2^3$ qubits and $3$ layers. For arbitrary $N = 2^n$ qubits and $n$ layers, the $l$-th course-graining layer (CG in the figure) is as in the qTTN ansatz whilst the $l$-th disentangling layer is a composition of the $(l-1)$-th disentangling layer with additional $R^{(j_1,... | \documentclass[pra,onecolumn,notitlepage,nofootinbib,floatfix]{revtex4-2}
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Example of a tree $\mathcal{T}$ and the sets $\Upsilon$. Each node corresponds to a wavelet index $\lambda \in \mathcal{T}$. The solid lines represent the sets $\Upsilon(\lambda)$, $\lambda \in \mathcal{V}(\mathcal{T})$, with $\mu_\lambda$ set as in \eqref{eq:mu_lambda}. | \documentclass[a4paper, 11pt, oneside]{article}
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level 1/.style={sibling distance=70mm},
level 2/.style={sibling distance=40mm},
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Here we illustrate the test spectrum of the relative majorization semiring $S^2$. It corresponds to the set of R\'{e}nyi divergences as is shown in the proof of Corollary~\ref{cor:RelativeMaj}, which is here drawn as the two-point compactification of $\R$. On the right-hand side of the centre point $\alpha=1/2$ (in bla... | \documentclass[12pt,a4paper,reqno]{amsart}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{xcolor}
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\usepackage{tikz}
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\begin{document}
\begin{tikzpicture}
\draw[green!50!black, ultra thick] (-4,0) -- node[above=2pt]{\begin{large}$A_-$\end{large}} (-2,0);
\d... | "JVBERi0xLjUKJcK1wrYKCjEgMCBvYmoKPDw+PgplbmRvYmoKCjIgMCBvYmoKPDw+PgplbmRvYmoKCjMgMCBvYmoKPDwvcGdmcHJnYlsvUGF0dGVybi9EZXZpY2VSR0JdPj4KZW5kb2JqCgo0IDAgb2JqCjw8L0NvbG9yU3BhY2UgMyAwIFIvUGF0dGVybiAyIDAgUi9FeHRHU3RhdGUgMSAwIFIvRm9udDw8L0Y0MyA3IDAgUi9GMzAgOCAwIFIvRjI0IDkgMCBSL0YzMyAxMCAwIFIvRjQ4IDExIDAgUj4+L1Byb2NTZXRbL1BERi9... | https://arxiv.org/abs/2301.07353 | arxiv | 2023-01-19T02:07:30 | |
An MOSSP with action costs given by $\vec{C}(a_1) = [1,0], {\vec{C}(a_2) = [1, 0]}, \vec{C}(a_g) = [0,1]$. | \documentclass[letterpaper]{article}
\usepackage[table]{xcolor}
\usepackage{array,colortbl}
\usepackage{tikz}
\usepackage{amsmath}
\usepackage{amssymb}
\begin{document}
\begin{tikzpicture}
\node[shape=circle,draw=black,fill=blue!5] (A) at (0,0) {$s_0$};
\node[shape=circle,draw=black] (B) at ([shift={(... | "JVBERi0xLjUKJcK1wrYKCjEgMCBvYmoKPDw+PgplbmRvYmoKCjIgMCBvYmoKPDw+PgplbmRvYmoKCjMgMCBvYmoKPDwvcGdmcHJnYlsvUGF0dGVybi9EZXZpY2VSR0JdPj4KZW5kb2JqCgo0IDAgb2JqCjw8L0NvbG9yU3BhY2UgMyAwIFIvUGF0dGVybiAyIDAgUi9FeHRHU3RhdGUgMSAwIFIvRm9udDw8L0YyNyA3IDAgUi9GMjMgOCAwIFIvRjI2IDkgMCBSPj4vUHJvY1NldFsvUERGL1RleHRdPj4KZW5kb2JqCgo1IDAgb2J... | https://arxiv.org/abs/2303.14363 | arxiv | 2023-03-28T02:07:25 | |
Diagrammatic representation of the two- and three-point functions of the nucleon. Only quark lines are shown, while all gluon lines are suppressed. The red dots in the three-point functions represent the operator insertion. | \documentclass[a4paper,11pt]{article}
\usepackage{tikz}
\begin{document}
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\node[left] at (-2,0) {$x$};
\node[right] at (2,0) {$y$};
\filldraw (-2,0) circle (0.07) -- (2,0) circle (0.07);
\draw (-2,0) to [out=45, in=180] (0,1) to [out=0, in=135] (2,0);
\draw (-2,0) to [out=315, in... | "JVBERi0xLjUKJcK1wrYKCjEgMCBvYmoKPDw+PgplbmRvYmoKCjIgMCBvYmoKPDw+PgplbmRvYmoKCjMgMCBvYmoKPDwvcGdmcHJnYlsvUGF0dGVybi9EZXZpY2VSR0JdPj4KZW5kb2JqCgo0IDAgb2JqCjw8L0NvbG9yU3BhY2UgMyAwIFIvUGF0dGVybiAyIDAgUi9FeHRHU3RhdGUgMSAwIFIvRm9udDw8L0YzNiA3IDAgUi9GMzQgOCAwIFI+Pi9Qcm9jU2V0Wy9QREYvVGV4dF0+PgplbmRvYmoKCjUgMCBvYmoKPDwvVHlwZS9... | https://arxiv.org/abs/2211.17049 | arxiv | 2022-12-01T02:16:56 | |
Average count of least-common papers found by different policies in the $\text{CiteSeer}^\text{x}$ $C = 10$ experiments. \textsc{\MakeLowercase{DAS}} finds more members of rare classes. | \documentclass[twoside]{article}
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\usepackage{xcolor}
\usepackage{amssymb,amsmath}
\usepackage{pgfplots}
\usepgfplotslibrary{groupplots,dateplot}
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legend image with text/.style={
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One can see that if $\X=(-3,-1)\uplus (1,3)$ and $\Xg(\gamma)=\{X'_1,X'_2,X'_3\}$ is as figured, then $\mathcal N(X'_1,\Xg(\gamma))=\{X'_2\}$, $\mathcal N(X'_2,\Xg(\gamma))=\{X'_1\}$ and $\mathcal N(X'_3,\Xg(\gamma))=\{X'_2\}$. %Hence, $\tD=\{(X'_3,2)\}$, which induce a constant label $2$ on all $\X$. % | \documentclass[letterpaper]{article}
\usepackage{amssymb}
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\usetikzlibrary{arrows.meta}
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\usetikzlibrary{through}
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\usetikzlibrary{... | "JVBERi0xLjUKJcK1wrYKCjEgMCBvYmoKPDw+PgplbmRvYmoKCjIgMCBvYmoKPDw+PgplbmRvYmoKCjMgMCBvYmoKPDwvcGdmcHJnYlsvUGF0dGVybi9EZXZpY2VSR0JdPj4KZW5kb2JqCgo0IDAgb2JqCjw8L0NvbG9yU3BhY2UgMyAwIFIvUGF0dGVybiAyIDAgUi9FeHRHU3RhdGUgMSAwIFIvRm9udDw8L0YzNyA3IDAgUi9GMzMgOCAwIFIvRjM1IDkgMCBSL0YzOCAxMCAwIFIvRjM0IDExIDAgUi9GMjMgMTIgMCBSPj4vUHJ... | https://arxiv.org/abs/2206.08014 | arxiv | 2022-12-27T02:12:29 | |
The boundary $\square$ of $[0,+\infty]\times[-\infty,+\infty]$ and its orientation. | \documentclass[a4paper,article,11pt]{article}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usepackage{color}
\begin{document}
\begin{tikzpicture}
\draw (0,0) node[left]{$(0,-\infty)$};
\fill (0,0) circle [radius=0.07];
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\draw ... | "JVBERi0xLjUKJcK1wrYKCjEgMCBvYmoKPDw+PgplbmRvYmoKCjIgMCBvYmoKPDw+PgplbmRvYmoKCjMgMCBvYmoKPDwvcGdmcHJnYlsvUGF0dGVybi9EZXZpY2VSR0JdPj4KZW5kb2JqCgo0IDAgb2JqCjw8L0NvbG9yU3BhY2UgMyAwIFIvUGF0dGVybiAyIDAgUi9FeHRHU3RhdGUgMSAwIFIvRm9udDw8L0YzMyA3IDAgUi9GMzYgOCAwIFIvRjM5IDkgMCBSL0Y0OCAxMCAwIFIvRjM0IDExIDAgUi9GNjMgMTIgMCBSPj4vUHJ... | https://arxiv.org/abs/2210.02609 | arxiv | 2022-10-07T02:05:49 | |
The lollipop graph $L_{4,2}$ (left), the graph $X_{3,4,2}$ (center) and the graph $Y_{3,4,2}$ (right) with sedentary vertices marked blue | \documentclass[11pt]{article}
\usepackage{amsmath}
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\pgfplotsset{width=9cm... | "JVBERi0xLjUKJcK1wrYKCjEgMCBvYmoKPDw+PgplbmRvYmoKCjIgMCBvYmoKPDw+PgplbmRvYmoKCjMgMCBvYmoKPDwvcGdmcHJnYlsvUGF0dGVybi9EZXZpY2VSR0JdPj4KZW5kb2JqCgo0IDAgb2JqCjw8L1MvR29Uby9EWzYgMCBSL0ZpdF0+PgplbmRvYmoKCjYgMCBvYmoKPDwvVHlwZS9QYWdlL0NvbnRlbnRzIDggMCBSL1Jlc291cmNlcyA3IDAgUi9NZWRpYUJveFsxNDEuOTMzNiA1OTIgNTg2LjE0NDU2IDY2NF0vUGF... | https://arxiv.org/abs/2303.06297 | arxiv | 2023-03-14T01:05:48 | |
\baselineskip8pt For an MDP with state space $S_H\times S_K\times S_M$, suppose that its unique optimal policy partitions $\R^3$ into four disjoint decision regions by a vertical plane and a horizontal plane. Both actions $W$ and $T$ are optimal over two disconnected regions. However, all three types of control limit o... | \documentclass{article}
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y = {(0.9659cm,-0.25882cm)},
z = {(0cm,1cm)},
scale = 1.2,
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% style of faces
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System overview of the malware analysis laboratory. The files to be analysed, in this case Windows PE files, are submitted to CAPE Sandbox and VirusTotal (VT) by separate Python scripts. After the analysis is complete, one script extracts and saves the CAPE reports and another performs the same action for the VT report... | \documentclass[journal]{IEEEtran}
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\begin{tikzpicture}
\tikzset{%
cascaded/.style = {%
general shadow = {%
shadow scale = 1,
shadow xshift = -1ex,
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$\mathbb{Z}/2$-equivariant long cylinders in the doubled domain $D(\Sigma_n)=\Sigma_{n}\cup \sigma(\Sigma_{n})$ (left) converging to nodes, shown as abstract pairings between marked points on the limit domain (right). As explained below, collapsing boundary components, as in (a), need to be isolated via an additional c... | \documentclass[12pt]{amsart}
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\usetikzlibrary{arrows.meta,calc,decorations.markings,patterns,cd,patterns.meta}
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\node at (5.4,.9) {(b)};
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Minkowski spacetime (M) with Rindler wedge-$R_1$ and Rindler wedge-$R_2$. $R_2$ and $RR-R$ coincide. | \documentclass[reprint, amsmath,amssymb, aps]{revtex4-2}
\usepackage{xcolor}
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\usepackage{circuitikz}
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Cuboid with concavity: The three planes $P_X$ (red), $P_Y$ (green) and $P_Z$ (blue), which consists of two semi-planes.) | \documentclass[10pt,a4paper]{article}
\usepackage[utf8]{inputenc}
\usepackage{amsmath,amsthm,enumerate}
\usepackage{amssymb}
\usepackage[dvipsnames]{xcolor}
\usepackage{tikz}
\usetikzlibrary{calc}
\usetikzlibrary{patterns}
\usepackage[color=green!30]{todonotes}
\usetikzlibrary{arrows, decorations.markings,shapes,arrows... | "JVBERi0xLjUKJcK1wrYKCjEgMCBvYmoKPDw+PgplbmRvYmoKCjIgMCBvYmoKPDw+PgplbmRvYmoKCjMgMCBvYmoKPDwvcGdmcHJnYlsvUGF0dGVybi9EZXZpY2VSR0JdPj4KZW5kb2JqCgo0IDAgb2JqCjw8L0NvbG9yU3BhY2UgMyAwIFIvUGF0dGVybiAyIDAgUi9FeHRHU3RhdGUgMSAwIFIvRm9udDw8L0YyNyA3IDAgUj4+L1Byb2NTZXRbL1BERi9UZXh0XT4+CmVuZG9iagoKNSAwIG9iago8PC9UeXBlL1BhZ2UvQ29udGV... | https://arxiv.org/abs/2210.13094 | arxiv | 2022-10-25T02:26:20 | |
Some internally vertex-color-avoiding connected graphs on $n \in \{ 9, 10, \ldots, 14 \}$ vertices colored with exactly $k = 4$ colors and with $\big\lceil \frac{2k-1}{2k-2}n - \frac{k}{k-1} \big\rceil$ of edges. | \documentclass{article}
\usepackage[utf8]{inputenc}
\usepackage{amsmath,amsthm,amssymb}
\usepackage[unicode,colorlinks=true,citecolor=green!40!black,linkcolor=red!20!black,urlcolor=blue!40!black,filecolor=cyan!30!black]{hyperref}
\usepackage{tikz}
\usetikzlibrary{calc}
\usetikzlibrary{decorations.shapes, shapes.geometr... | "JVBERi0xLjUKJcK1wrYKCjEgMCBvYmoKPDw+PgplbmRvYmoKCjIgMCBvYmoKPDw+PgplbmRvYmoKCjMgMCBvYmoKPDwvcGdmcHJnYlsvUGF0dGVybi9EZXZpY2VSR0JdPj4KZW5kb2JqCgo0IDAgb2JqCjw8L1MvR29Uby9EWzYgMCBSL0ZpdF0+PgplbmRvYmoKCjYgMCBvYmoKPDwvVHlwZS9QYWdlL0NvbnRlbnRzIDggMCBSL1Jlc291cmNlcyA3IDAgUi9NZWRpYUJveFsxNDkgNTI3IDYxMSA2NjZdL1BhcmVudCAxNCAwIFI... | https://arxiv.org/abs/2302.11035 | arxiv | 2023-02-23T02:04:16 | |
The Eierlegende Wollmilch Sau EW.\\ The gluings of the squares follow the action of the quaternion group.\\ Multiplication by $i$ defines the square on the right, by $j$ the square on top. | \documentclass[12pt,a4paper]{amsart}
\usepackage[usenames]{color}
\usepackage{amsmath}
\usepackage{latexsym,color}
\usepackage{amssymb}
\usepackage{tikz}
\usetikzlibrary{snakes}
\usetikzlibrary{arrows}
\begin{document}
\begin{tikzpicture}[scale = 1.8]
\draw[thick] (0,0) rectangle(1, 1);\draw[thick] (1,0) rectangle... | "JVBERi0xLjUKJcK1wrYKCjEgMCBvYmoKPDw+PgplbmRvYmoKCjIgMCBvYmoKPDw+PgplbmRvYmoKCjMgMCBvYmoKPDwvcGdmcHJnYlsvUGF0dGVybi9EZXZpY2VSR0JdPj4KZW5kb2JqCgo0IDAgb2JqCjw8L0NvbG9yU3BhY2UgMyAwIFIvUGF0dGVybiAyIDAgUi9FeHRHU3RhdGUgMSAwIFIvRm9udDw8L0YzMyA3IDAgUi9GNDcgOCAwIFIvRjUwIDkgMCBSPj4vUHJvY1NldFsvUERGL1RleHRdPj4KZW5kb2JqCgo1IDAgb2J... | https://arxiv.org/abs/2212.01024 | arxiv | 2022-12-05T02:08:17 | |
The unique graph $G$ with 8 edges whose toric ideal is not GVD (on the left) and the unique graph $H$ with 9 edges whose toric ideal is weakly GVD but not GVD (on the right) | \documentclass{amsproc}
\usepackage[utf8]{inputenc}
\usepackage{amsmath,amssymb,amsthm,mathrsfs,mathtools}
\usepackage{xcolor}
\usepackage{tikz}
\begin{document}
\begin{tikzpicture}[scale=0.27]
% graph G
\draw (-15,3) -- (-15,9) node[midway, left] {$a$};
\draw (-9.5,6) -- (-15,9) node[midway... | "JVBERi0xLjUKJcK1wrYKCjEgMCBvYmoKPDw+PgplbmRvYmoKCjIgMCBvYmoKPDw+PgplbmRvYmoKCjMgMCBvYmoKPDwvcGdmcHJnYlsvUGF0dGVybi9EZXZpY2VSR0JdPj4KZW5kb2JqCgo0IDAgb2JqCjw8L0NvbG9yU3BhY2UgMyAwIFIvUGF0dGVybiAyIDAgUi9FeHRHU3RhdGUgMSAwIFIvRm9udDw8L0YyNyA3IDAgUj4+L1Byb2NTZXRbL1BERi9UZXh0XT4+CmVuZG9iagoKNSAwIG9iago8PC9UeXBlL1BhZ2UvQ29udGV... | https://arxiv.org/abs/2211.02471 | arxiv | 2022-11-07T02:11:57 | |
\small On the left, we depict the lower half of the Euclidean geometry combined with the subsequent Lorentzian evolution. The former %of the Euclidean geometry is used to generate the deformed thermofield initial state. The right figure illustrates the full Euclidean evolution which may be used to compute the normaliza... | \documentclass[a4paper,12pt]{article}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{xcolor,color}
\usepackage{tikz}
\usetikzlibrary{shapes.geometric,positioning,decorations.pathreplacing,decorations.pathmorphing,patterns,decorations.markings}
\begin{document}
\begin{tikzpicture}[scale=1.1]
\draw[blue, thick,-... | "JVBERi0xLjUKJcK1wrYKCjEgMCBvYmoKPDw+PgplbmRvYmoKCjIgMCBvYmoKPDw+PgplbmRvYmoKCjMgMCBvYmoKPDwvcGdmcHJnYlsvUGF0dGVybi9EZXZpY2VSR0JdPj4KZW5kb2JqCgo0IDAgb2JqCjw8L0NvbG9yU3BhY2UgMyAwIFIvUGF0dGVybiAyIDAgUi9FeHRHU3RhdGUgMSAwIFIvRm9udDw8L0YzNSA3IDAgUi9GMjcgOCAwIFI+Pi9Qcm9jU2V0Wy9QREYvVGV4dF0+PgplbmRvYmoKCjUgMCBvYmoKPDwvVHlwZS9... | https://arxiv.org/abs/2209.01394 | arxiv | 2022-09-07T02:08:07 | |
Aggregated results in the fusion setting with and without transition noise. When comparing to \autoref{fig::eval_missing} we see that both approaches are able to exploit the additional proprioceptive information and improve their performance. Yet, the \emph{VRKN} seems to better exploit and accumulate the available inf... | \documentclass[10pt]{article}
\usepackage{amsmath,amsfonts,bm}
\usepackage{amsmath}
\usepackage{tikz}
\usepackage{pgfplots}
\pgfplotsset{
compat=1.17,
/pgfplots/ybar legend/.style={
/pgfplots/legend image code/.code={%
\draw[##1,/tikz/.cd,yshift=-0.25em]
(0cm,0cm) rectangle (3pt,0.8em);},},}
... | "JVBERi0xLjUKJcK1wrYKCjEgMCBvYmoKPDwvcGdmQGNhMC4zNTw8L2NhIC4zNT4+L3BnZkBjYTAuODw8L2NhIC44Pj4vcGdmQENBMTw8L0NBIDE+Pi9wZ2ZAY2ExPDwvY2EgMT4+Pj4KZW5kb2JqCgoyIDAgb2JqCjw8Pj4KZW5kb2JqCgozIDAgb2JqCjw8L3BnZnByZ2JbL1BhdHRlcm4vRGV2aWNlUkdCXT4+CmVuZG9iagoKNCAwIG9iago8PC9Db2xvclNwYWNlIDMgMCBSL1BhdHRlcm4gMiAwIFIvRXh0R1N0YXRlIDEgMCB... | https://arxiv.org/abs/2210.09256 | arxiv | 2022-10-18T02:34:30 | |
Unimodality of $f(x)$ for $\alpha \in \{0.2,0.4,0.6,0.8,1\}$ and $\delta=(P_0-P_{\mathrm{sleep}})/(\gamma \sigma^{2\alpha}) \in \{0,1\}$. | \documentclass[12pt, draftclsnofoot, onecolumn]{IEEEtran}
\usepackage[cmex10]{amsmath}
\usepackage{amssymb}
\usepackage{color}
\usepackage{pgfplots}
\pgfplotsset{compat=1.3}
\usepackage{tikz}
\usetikzlibrary{shapes}
\usetikzlibrary{spy}
\usetikzlibrary{circuits}
\usetikzlibrary{arrows}
\begin{document}
\begin{tikzpic... | "JVBERi0xLjUKJcK1wrYKCjEgMCBvYmoKPDwvcGdmQGNhMC44PDwvY2EgLjg+Pi9wZ2ZAQ0ExPDwvQ0EgMT4+L3BnZkBjYTE8PC9jYSAxPj4+PgplbmRvYmoKCjIgMCBvYmoKPDw+PgplbmRvYmoKCjMgMCBvYmoKPDwvcGdmcHJnYlsvUGF0dGVybi9EZXZpY2VSR0JdPj4KZW5kb2JqCgo0IDAgb2JqCjw8L0NvbG9yU3BhY2UgMyAwIFIvUGF0dGVybiAyIDAgUi9FeHRHU3RhdGUgMSAwIFIvRm9udDw8L0Y2OSA3IDAgUi9GNzI... | https://arxiv.org/abs/2303.17898 | arxiv | 2023-04-03T02:10:06 | |
A skew $1$-odd orthogonal tableau of shape $(4,3,3,2,2)/(2)$ (left) and its associated family of $1$-odd orthogonal paths (right). | \documentclass[11pt,reqno]{amsart}
\usepackage{tikz}
\usepackage{amssymb}
\newcommand{\wh}[1]{\widehat{#1}}
\begin{document}
\begin{tikzpicture}[baseline=(current bounding box.center),scale=.5]
\draw[help lines,step=1cm, lightgray] (-3.75,-.75) grid (5.75,8.75);
\draw[very thick, red] (.25,-.75) -- (5.75,4.7... | "JVBERi0xLjUKJcK1wrYKCjEgMCBvYmoKPDw+PgplbmRvYmoKCjIgMCBvYmoKPDw+PgplbmRvYmoKCjMgMCBvYmoKPDwvcGdmcHJnYlsvUGF0dGVybi9EZXZpY2VSR0JdPj4KZW5kb2JqCgo0IDAgb2JqCjw8L0NvbG9yU3BhY2UgMyAwIFIvUGF0dGVybiAyIDAgUi9FeHRHU3RhdGUgMSAwIFIvRm9udDw8L0YzMyA3IDAgUi9GNTAgOCAwIFIvRjQ5IDkgMCBSL0Y1NCAxMCAwIFI+Pi9Qcm9jU2V0Wy9QREYvVGV4dF0+PgplbmR... | https://arxiv.org/abs/2305.11730 | arxiv | 2023-05-22T02:16:58 |
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