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Thermoelectric Power Factor Calculator for Superlattices

By Terence Musho1, Greg Walker2

1. West Virginia University 2. Vanderbilt University

Quantum Simulation of the Seebeck Coefficient and Electrical Conductivity in 1D Superlattice Structures using Non-Equilibrium Green's Functions

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Version 1.2 - published on 29 Jun 2009

doi:10.4231/D35Q4RK7J cite this

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Usage

World usage

Location of all "Thermoelectric Power Factor Calculator for Superlattices" Users Since Its Posting

Simulation Users

419

13 18 37 44 47 55 62 63 70 76 78 80 89 91 93 100 108 117 127 130 132 134 144 154 158 164 170 176 185 193 199 205 210 214 227 243 249 255 259 263 269 275 282 285 287 290 296 299 301 319 330 336 340 347 349 353 363 371 374 378 382 388 407 419

Users By Organization Type
Type Users
Educational - University 297 (70.88%)
Unidentified 88 (21%)
Industry 15 (3.58%)
National Lab 7 (1.67%)
Educational - Pre-College 5 (1.19%)
Unemployed 5 (1.19%)
Government Agency 2 (0.48%)
Users by Country of Residence
Country Users
us UNITED STATES 126 (50.4%)
in INDIA 44 (17.6%)
cn CHINA 18 (7.2%)
kr KOREA, REPUBLIC OF 16 (6.4%)
cz CZECH REPUBLIC 10 (4%)
ca CANADA 10 (4%)
de GERMANY 8 (3.2%)
tw TAIWAN 7 (2.8%)
br BRAZIL 6 (2.4%)
it ITALY 5 (2%)

Simulation Runs

1,411

52 66 121 141 146 188 227 242 257 269 272 274 298 306 310 325 352 381 435 442 473 478 503 543 554 582 597 608 635 651 666 693 765 787 824 892 903 912 926 937 954 967 976 1043 1046 1051 1067 1081 1084 1126 1157 1169 1179 1188 1193 1267 1282 1298 1304 1310 1316 1329 1370 1411
Overview
Average Total
Wall Clock Time 1.58 hours 46.87 days
CPU time 3.83 minutes 1.89 days
Interaction Time 31.71 minutes 15.66 days

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