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An $n$ dimensional lattice is the set of integer linear combinations of $n$ linearly independent vectors in $\mathbb{R}^{d}$ ($d\le n$). The $n$ independent vectors are called the basis of the lattice,...
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An $n$-dimensional Euclidean lattice $L$ is called of $\textbf{Voronoi's first kind}$ if it satisfies the $\textbf{obtuse superbasis}$ condition: There exist $x_0, \dots, x_n \in L$ such that $1) x_1, ...
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Can you show an example of a lattice and its dual where the product of the length of their smallest vectors is close to the dimension of the lattice? Let $L$ be an $n$-dimensional lattice, and let $L^{...
Péter Fazekas's user avatar
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We consider the space of $n$-dimensional Euclidean lattices. Define the $i$-th successive minimum of a lattice $\Lambda$ as $ \lambda_i(L) := \min \left\{ r \in \mathbb{R}_{>0} \mid \dim_{\mathbb{R}...
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Let $P$ be the positive integer point lattice on the plane, that is, all points $(x,y)\in\mathbb{R}^2$ such that $x,y\in\mathbb{N}, x,y>0$. Take $a_i,b_i,c_i\in P$ such that $b_i=(b_{i,x},b_{i,y}) \...
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A duplicate of this: I am reading Mahler’s Lattice points in $n$-dimensional star bodies II (1946), in which he poses the following (then) open problems about the irreducibility of star bodies: Do ...
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So let $L$ be a full dimensional lattice in $\mathbb{R}^{n}$. Then the Voronoi-cell of the lattice are precisely the points in $\mathbb{R}^{n}$ that are at least as close to the origin, as to any ...
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I've started looking into well-rounded Euclidean lattices and I was interested in learning whether their theta series have any interesting properties, but haven't found much in terms of bibliography ...
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Recently i've been thinking about base reduction of lattices, and this constant similar to Hermites constant came up. Let $L$ be a lattice with basis $\mathbf{b}_{1},\ldots,\mathbf{b}_{n}$. We define ...
Péter Fazekas's user avatar
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Let L be a n-dimensional lattice (a discrete cocompact subgroup of n-space). Let V0 denote the Voronoi region of the origin, and let C denote the union of V0 with all the Voronoi regions that share a ...
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For fixed dimension $d$ and large $R$ consider all non-zero integer vectors in the ball $B(0,R)\subset \mathbb{R} ^d$ of radius $R$ centered at the origin. The number of such vectors grows as $c_d\...
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I would like to understand the deep meaning of a solution which arises from an optimization problem discussed in a paper of mine since it can be simply stated as $\frac{\phi^5}{2}$, where $\phi := \...
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Let $k$ be a given positive integer, and then consider the unit hypercube $\{0, 1\}^k \subset \mathbb{R}^k$ (i.e., a $k$-dimensional "cube" in the well-known Euclidean space). We need to ...
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In the book of Conway and Sloane about Sphere packings and Lattices, which is referenced by the video of Borcherds a construction of the Leech Lattice based on the number theoretic identity: $$1^2+2^2+...
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Assume we have an oracle which gives the length of the shortest vector in a lattice. Given this oracle can we find the shortest vector in polynomial time?
Turbo's user avatar
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Consider a random walk from the $\mathbb{Z}^2$ origin $(0,0)$ to visible (not blocked) lattice points $p$, with a parameter $r$ a given radius of a circle centered on $p$. With $p$ the previous point, ...
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It is well known that the number of $\mathbb{Z}^2$ lattice points visible from the origin is $6/\pi^2$, about $61$%. See, e.g., What fraction of the integer lattice can be seen from the origin?. I am ...
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Consider the Linear Diophantine in known $a,b,c\in\mathbb Z$ $$ax+by=c.$$ Above can be solve by Extended Euclidean which is not in $NC$ as far as we know. It is clear if Extended Euclidean is in $NC$ ...
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My daily work concerns analysis on metric spaces and some time ago it turned out that the problem I am dealing with boils down to a certain combinatorial problem. I've checked a lot of examples and it ...
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In $d$-dimensional lattice, we define a set $S_0$ be the zero point. At step $i\geq 1$: For each point $p\in S_{i-1}$, we can choose a single point $q$ who is a neighbour of $p$, and add $q$ into $s_{...
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Let $f:\mathbb R^n\to \mathbb R$ be a nonnegative Borel measurable function, and let $f^*$ be the function obtained from $f$ by spherical symmetrization (see Rogers' paper: number of lattice points in ...
taylor's user avatar
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Recall that the $i$-th successive minimum of $L\in \mathcal L$ (space of full rank lattices in $\mathbb R^d$), denoted $\lambda_i(L)$ is the infimum of the radii of the balls containing $i$-linearly ...
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Let $\mu$ be the Haar measure defined on the space of unimodular lattices, identified with $\text{SL}(d,\mathbb R)/\text{SL}(d,\mathbb Z)$. The classical Siegel's formula in geometry of numbers states ...
taylor's user avatar
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I am able to prove the following two propositions: Recall that the $i$-th successive minimum of $L\in \mathcal L$, denoted $\lambda_i(L)$ is the infimum of the radii of the balls containing $i$-...
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Suppose we have an $n$-dimensional lattice $\Lambda$, and a set of vectors ${\bf r}_i$, we can construct a union of cosets of $\Lambda$, denoted as $L$, as $$ L \equiv \bigcup_i ({\bf r}_i+\Lambda) $$ ...
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Let M be the generator matrix of a $N$ dimensional lattice, and $V$ the set of Voronoi relevant vectors. The Voronoi cell for the origin can be written as $\text{Vor}_{\bf 0}(M)=\left\{{\bf x}: |{\bf ...
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There exists an explicit bijection (due to Cayley, that has built up a very nice table to describe this) between the positive roots of the lattice $E_7$ and $\mathbb{F}_2^6 \setminus \{0\}$ (where $\...
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The number $65520$ arises in two very different scenarios: It occurs in the formula for the theta series of the Leech lattice: $$ \Theta_{\Lambda_{24}}(q) = 1 + \sum\limits_{m=1}^{\infty} \dfrac{...
Adam P. Goucher's user avatar
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Let $\mathcal L$ be the space of unimodular (covolume one) lattices in $\mathbb R^d$. The $i$-th successive minimum of $L\in \mathcal L$, denoted $\lambda_i(L)$ is the infimum of the radii of the ...
No One's user avatar
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Do you have any references explaining the relationships among the lattices U14, C2xG23 aka Q14, and A15+? Do you have any references explaining the relationships among these lattices and the 7D ...
Dan Haxton's user avatar
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I would like to define standard Gram matrices, and use them to help me understand the symmetries of lattices. I define "standard Gram matrix" as the Gram matrix g that minimizes the ...
Dan Haxton's user avatar
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Let us fix some bounded surface $S\subset \mathbb{R}^d$. Let $x_1,\dots, x_m \in \mathbb{R}^d \setminus \{ 0_d \}$. I am interested in the maximum number of points that the lattice $$L_m = \left\{ \...
TOM's user avatar
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Let $R$ be a root lattice of a irreducible root system $\Phi$. Suppose $W$ is a Weyl group of $\Phi$ and $S$ is a sublattice of $R$ which is $W$-stable and satisfies $|R/S|<\infty$. For example, ...
Fuutorider's user avatar
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I have been doing research on the Niemeier lattices with root systems of type, $A_{k}^n$ and I am particularly interested in the finite groups permuting the constituent root systems. These groups ...
Sean Miller's user avatar
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This question is about euclidean lattices, regular arrays of points in $\mathbb R^N$. Why are there 3 Gram matrices for the E8 lattice? They are not related by a similarity transformation; they have ...
Dan Haxton's user avatar
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Let $B\in\mathbb Z^{n\times n}$ generate a rank-$r$ lattice $\mathcal L_1\subseteq\mathbb Z^n$ and let $B^k\in\mathbb Z^{n\times n}$ generate lattice $\mathcal L_k\subseteq\mathbb Z^n$ assuming $\...
Turbo's user avatar
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How many lattices are there which contain both the $A_n$ and $D_n$ lattices of the same dimension as sublattices? So far, I’ve found examples in 1D, 3D, 8D, and 24D.
Daniel Sebald's user avatar
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Consider a full rank integer lattice in $\mathbb{R}^n$. Let $v_1$ be the shortest non-zero vector in the lattice, $v_2$ be the shortest one among those not parallel to $v_1$, $v_3$ be the shortest one ...
Yuhang Liu's user avatar
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Let $L_0, L_1$ be Euclidean lattices (say full rank) of dimension $n_i$. Let $\lambda_1(L_i)$ denote the length of the shortest vector of $L_i$, and let $\rho(L_i)$ denote the covering radius of $L_i$:...
Mark Schultz-Wu's user avatar
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I am looking for an estimation of the number of paths of length $n$ going from 0 to 0 on the hexagonal (or honeycomb) lattice. I can find plenty on references on self avoiding paths, but I am looking ...
kaleidoscop's user avatar
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Here I will regard $SU(2)$ as the multiplicative group of unit quaternions. There are just three conjugacy classes of finite subgroups $G < SU(2)$ where $[G:C] > 2$ for all cyclic subgroups $C &...
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Are there any equivalent representations of the following (real valued) sum, in particular that are suitable for evaluation as $z\rightarrow0$ ? $$ S=\sum_{k=-\infty}^\infty \frac{i^k(z-2ik)}{(\rho^2+(...
Matt Majic's user avatar
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Let $M$ be a closed additive submonoid of $\mathbb{R}^n$ with $n\geq1$. Suppose also that there exists $r>0$ such that every ball of radius $r$ intersects $M$. I wonder if we can obtain more ...
phdstud's user avatar
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Let $\Lambda\subset \mathbb R^d$ a discrete subgroup, up to diminishing $d$ we assume it is of the form $A\mathbb Z^d$ with $A\in GL(d)$. Up to dilation we assume that the shortest vector in $\Lambda\...
Mircea's user avatar
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$\mathcal L$ and $\mathcal L'$ be full rank lattices in $\mathbb R^n$ with shortest vectors $v_1,\dots,v_n$ and $v_1',\dots,v_n'$ respectively where $$\|v_1\|_2\leq\dots\leq\|v_n\|_2$$ $$\|v_1'\|_2\...
Turbo's user avatar
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Gauss Circle problem gives the number of lattice points lie within a circle of radius $r$. This question points to a reference that estimates the number of lattice points in a $d−$dimensional ball. $...
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From what I understand (see, e.g., this question), the Monster Moonshine Module is a kind if "third generation" (or "second quantization"?) after the Golay code (with automorphism group $M_{24}$) and ...
Gro-Tsen's user avatar
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Say that two triangles are incommensurate if they do not share an edge length or a vertex angle, and their areas differ. Suppose you'd like to tile the plane with pairwise incommensurate triangles. I ...
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Suppose we have a $4 \times 6$ matrix $A$ of rank $4$ whose entries are rational numbers. Define $$ V = \{x \in \mathbb R^6 \mid A \cdot x = 0\} $$ and $$ \Lambda = \{x \in \mathbb Z^6 \mid A \cdot ...
Ramin's user avatar
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In order to estimate the size of the torsion in the algebraic $K$-groups of $\mathbb Q$ one needs to understand the homology of $\mathrm{GL}_n(\mathbb Z)$, or alternatively, the homology of the space ...
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