<--- Back to Details
First PageDocument Content
Spheres / Crystallography / Sphere packing / Packing problem / Close-packing of equal spheres / Spherical code / Sphere / Kissing number problem / N-sphere / Geometry / Mathematics / Discrete geometry
Date: 2011-02-02 09:35:11
Spheres
Crystallography
Sphere packing
Packing problem
Close-packing of equal spheres
Spherical code
Sphere
Kissing number problem
N-sphere
Geometry
Mathematics
Discrete geometry

PHYSICAL REVIEW E 83, Densest local sphere-packing diversity. II. Application to three dimensions Adam B. Hopkins and Frank H. Stillinger Department of Chemistry, Princeton University, Princeton, New Jerse

Add to Reading List

Source URL: cherrypit.princeton.edu

Download Document from Source Website

File Size: 781,40 KB

Share Document on Facebook

Similar Documents

Physics / Atmospheric sciences / Atmospheric radiative transfer codes / Meteorology / Visibility / Atomic physics / Nuclear physics / Particle physics / Mie scattering / Streamer / DISORT / Radiative transfer

Radiative transfer code SHARM for atmospheric and terrestrial applications A. I. Lyapustin An overview of the publicly available radiative transfer Spherical Harmonics code (SHARM) is presented. SHARM is a rigorous code,

DocID: 1qBux - View Document

Spheres / Crystallography / Sphere packing / Packing problem / Close-packing of equal spheres / Spherical code / Sphere / Kissing number problem / N-sphere / Geometry / Mathematics / Discrete geometry

PHYSICAL REVIEW E 83, Densest local sphere-packing diversity. II. Application to three dimensions Adam B. Hopkins and Frank H. Stillinger Department of Chemistry, Princeton University, Princeton, New Jerse

DocID: 18q3V - View Document

Nuclear technology / Procedural programming languages / Tokamaks / Fusion power / Alternative energy / Stellarator / Fortran / Spherical tokamak / ITER / Fusion reactors / Computing / Software engineering

T&M/PKNIGHT/PROCESS/MANUAL A User Guide to the PROCESS Systems Code P. J. Knight

DocID: 15W1r - View Document