Extended KIM ID Title
Dipole_Umeno_YSZ__MO_394669891912_001 Dipole model potential optimized for YSZ (Yttria-stabilized zirconia)
EAM_CubicNaturalSpline_AngeloMoody_1995_Ni__MO_800536961967_002 EAM potential for Ni developed by Angelo et al. (1995) modified by Dupuy for smooth derivatives
EAM_CubicNaturalSpline_ErcolessiAdams_1994_Al__MO_800509458712_002 EAM potential for Al developed by Ercolessi and Adams (1994)
EAM_Dynamo_Ackland_1987_Au__MO_754413982908_000 EAM Au potential of Ackland Tichy Vitek and Finnis
EAM_Dynamo_Ackland_1992_Ti__MO_748534961139_005 Finnis-Sinclair potential for Ti for the hcp-fcc transition developed by Ackland (1992)
EAM_Dynamo_Ackland_2003_W__MO_141627196590_005 Finnis-Sinclair potential for W developed by Ackland (2003)
EAM_Dynamo_AcklandBaconCalder_1997_Fe__MO_142799717516_005 Finnis-Sinclair potential for bcc Fe developed by Ackland et al. (1997)
EAM_Dynamo_AcklandMendelevSrolovitz_2004_FeP__MO_884343146310_005 Finnis-Sinclair potential for the Fe-P system developed by Ackland et al. (2004)
EAM_Dynamo_AcklandTichyVitek_1987_Ag__MO_212700056563_005 Finnis-Sinclair potential for Ag developed by Ackland et al. (1987)
EAM_Dynamo_AcklandTichyVitek_1987_Au__MO_104891429740_005 Finnis-Sinclair potential for Au due to Ackland et al. (1987)
EAM_Dynamo_AcklandTichyVitek_1987_Cu__MO_179025990738_005 Finnis-Sinclair potential for Cu developed by Ackland et al. (1987)
EAM_Dynamo_AcklandTichyVitek_1987_Ni__MO_977363131043_005 Finnis-Sinclair potential for Ni developed by Ackland et al. (1987)
EAM_Dynamo_AcklandTichyVitek_1987v2_Ag__MO_055919219575_000 Finnis-Sinclair potential for Ag developed by Ackland et al. (1987), version 2 refitted for radiation studies
EAM_Dynamo_AcklandTichyVitek_1987v2_Cu__MO_762798677854_000 Finnis-Sinclair potential for Cu developed by Ackland et al. (1987), version 2 refitted for radiation studies
EAM_Dynamo_AcklandTichyVitek_1987v2_Ni__MO_769632475533_000 Finnis-Sinclair potential for Ni developed by Ackland et al. (1987), version 2 refitted for radiation studies
EAM_Dynamo_AcklandVitek_1990_Cu__MO_642748370624_000 Finnis-Sinclair potential for Cu developed by Ackland and Vitek (1990)
EAM_Dynamo_AcklandWoodingBacon_1995v2_Zr__MO_398441626455_000 Finnis-Sinclair potential for Zr developed by Ackland et al. (1995), version 2 with short-range repulsion for radiation studies
EAM_Dynamo_AdamsFoiles_1989Universal6_Cu__MO_145873824897_000 EAM Universal6 Cu potential of Foiles, Baskes, and Daw; obtained from LAMMPS
EAM_Dynamo_AdamsFoilesWolfer_1989_Au__MO_087738844640_000 EAM Au "Universal 4" potential of J.B. Adams, S.M. Foiles, and W.G. Wolfer
EAM_Dynamo_AdamsFoilesWolfer_1989Universal6_Ag__MO_681640899874_000 EAM Universal6 Ag potential of Adams, Foiles and Wolfer (1989)
EAM_Dynamo_AdamsFoilesWolfer_1989Universal6_Ni__MO_258836200237_000 EAM Universal6 Ni potential of Adams, Foiles and Wolfer (1989)
EAM_Dynamo_AdamsFoilesWolfer_1989Universal6_Pd__MO_169076431435_000 EAM Universal6 Pd potential of Adams, Foiles and Wolfer (1989)
EAM_Dynamo_AdamsFoilesWolfer_1989Universal6_Pt__MO_388062184209_000 EAM Universal6 Pt potential of Adams, Foiles and Wolfer (1989)
EAM_Dynamo_AgrawalMishraWard_2013_Be__MO_404563086984_000 Beryllium EAM potential developed by Agrawal, Mishra, Ward, Flores and Windl (2013)
EAM_Dynamo_AngeloMoodyBaskes_1995_NiAlH__MO_418978237058_005 EAM potential for the Ni-Al-H system developed by Angelo, Moody and Baskes (1995)
EAM_Dynamo_BonnyCastinBullens_2013_FeW__MO_737567242631_000 EAM potential for the Fe-W system developed by Bonny et al. (2013)
EAM_Dynamo_BonnyCastinTerentyev_2013_FeNiCr__MO_763197941039_000 EAM potential for the Fe-Ni-Cr system developed by Bonny, Castin and Terentyev (2013)
EAM_Dynamo_BonnyGrigorev1Terentyev_2017_W__MO_234187151804_000 EAM potential for the W-Re system developed by Bonny et al. (2017)
EAM_Dynamo_BonnyPasianotCastin_2009_FeCuNi__MO_469343973171_005 EAM potential for Fe-Cu-Ni reactor pressure vessel steels developed by Bonny et al. (2009)
EAM_Dynamo_BonnyPasianotMalerba_2009_FeNi__MO_267721408934_005 EAM potential for the FeNi system developed by Bonny, Pasianot and Malerba (2009)
EAM_Dynamo_BonnyTerentyev_2014EAM1_W__MO_292520929154_000 EAM potential for the W-H-He system developed by Bonny and Terentyev (2014); Potential EAM1
EAM_Dynamo_BonnyTerentyev_2014EAM2_W__MO_626183701337_000 EAM potential for the W-H-He system developed by Bonny and Terentyev (2014); Potential EAM2
EAM_Dynamo_BorovikovMendelevKing_2016_CuZr__MO_097471813275_000 Finnis-Sinclair potential for the Cu-Zr system developed by Borovikov, Mendelev and King (2016)
EAM_Dynamo_CaiYe_1996_AlCu__MO_942551040047_005 EAM potential for the Al-Cu system developed by Cai and Ye (1996)
EAM_Dynamo_ChamatiPapanicolaouMishin_2006_Fe__MO_960699513424_000 EAM potential for Fe developed by Chamati et al. (2006)
EAM_Dynamo_ErcolessiAdams_1994_Al__MO_123629422045_005 EAM potential for Al developed by Ercolessi and Adams (1994)
EAM_Dynamo_FarkasJones_1996_NbTiAl__MO_042691367780_000 EAM potential for the Nb-Ti-Al system developed by Farkas and Jones (1996)
EAM_Dynamo_FellingerParkWilkins_2010_Nb__MO_102133002179_005 Force-matched embedded-atom potential for Nb developed by Fellinger, Park and Wilkins (2010)
EAM_Dynamo_Foiles_1985_Cu__MO_831121933939_000 EAM Cu potential of Foiles for NiCu Alloy; obtained from LAMMPS
EAM_Dynamo_Foiles_1985_Ni__MO_010059867259_000 EAM Ni potential of Foiles for NiCu Alloy; obtained from LAMMPS
EAM_Dynamo_FoilesBaskesDaw_1986Universal3_Ag__MO_626948998302_000 EAM Universal3 Ag potential of Foiles, Baskes, and Daw; obtained from LAMMPS
EAM_Dynamo_FoilesBaskesDaw_1986Universal3_Au__MO_559016907324_000 EAM Universal3 Au potential of Foiles, Baskes, and Daw; obtained from LAMMPS
EAM_Dynamo_FoilesBaskesDaw_1986Universal3_Cu__MO_666348409573_004 EAM Universal3 Pd potential of Foiles, Baskes, and Daw; obtained from LAMMPS; obtained from LAMMPS
EAM_Dynamo_FoilesBaskesDaw_1986Universal3_Ni__MO_580571659842_000 EAM Universal3 Ni potential of Foiles, Baskes, and Daw; obtained from LAMMPS
EAM_Dynamo_FoilesBaskesDaw_1986Universal3_Pd__MO_786012902615_000 EAM Universal3 Pd potential of Foiles, Baskes, and Daw; obtained from LAMMPS
EAM_Dynamo_FoilesBaskesDaw_1986Universal3_Pt__MO_757342646688_000 EAM Universal3 Pt potential of Foiles, Baskes, and Daw; obtained from LAMMPS
EAM_Dynamo_FortiniMendelevBuldyrev_2008_Ru__MO_114077951467_005 Finnis-Sinclair potential for Ru developed by Fortini et al. (2008)
EAM_Dynamo_GrocholaRusso_2005_Au__MO_557267801129_000 EAM Au potential of Grochola Russo and Snook
EAM_Dynamo_HaleWongZimmerman_2008PairHybrid_PdAgH__MO_104806802344_005 EAM potential for the Pd-Ag-H ternary alloy system developed by Hale et al. (2013) (hybrid Pd-Ag interactions)
EAM_Dynamo_HaleWongZimmerman_2008PairMorse_PdAgH__MO_108983864770_005 EAM potential for Pd-Ag-H ternary alloy system developed by Hale et al. (2013) (Morse Pd-Ag interactions)
EAM_Dynamo_HanZepedaAckland_2003_V__MO_411020944797_000 Finnis-Sinclair potential for V developed by Han et al. (2003)
EAM_Dynamo_HanZepedaAckland_2003_W__MO_286137913440_000 Finnis-Sinclair potential for W developed by Han et al. (2003)
EAM_Dynamo_HepburnAckland_2008_FeC__MO_143977152728_005 EAM potential for the FeC system developed by Ackland and Hepburn (2008)
EAM_Dynamo_HoytGarvinWebb_2003_PbCu__MO_119135752160_005 EAM potential for the Pb-Cu system developed by Hoyt et al. (2003)
EAM_Dynamo_JacobsenNorskovPuska_1987_Al__MO_411692133366_000 EMT Al potential of Karsten, Norskov and Puska; obtained from LAMMPS
EAM_Dynamo_LandaWynblattSiegel_2000_AlPb__MO_699137396381_005 Glue potential for the Al-Pb system developed by Landa et al. (2000)
EAM_Dynamo_LiSiegelAdams_2003_Ta__MO_103054252769_005 EAM potential for Ta developed by Li et al. (2003)
EAM_Dynamo_LiuAdams_1998_AlMg__MO_019873715786_000 EAM potential for the Al-Mg system developed by Liu and Adams (1998)
EAM_Dynamo_LiuErcolessiAdams_2004_Al__MO_051157671505_000 EAM potential for Al developed by Liu, Ercolessi and Adams (2004)
EAM_Dynamo_LiuLiuBorucki_1999_AlCu__MO_020851069572_000 EAM potential for the Al-Cu system developed by Liu et al. (1999)
EAM_Dynamo_LiuOhotnickyAdams_1997_AlMg__MO_559870613549_000 EAM potential for the Al-Mg system developed by Liu et al. (1997)
EAM_Dynamo_Marinica_2007_Fe__MO_466808877130_000 Finnis-Sinclair potential for Fe developed by Marinica (2007)
EAM_Dynamo_Marinica_2011_Fe__MO_255315407910_000 Finnis-Sinclair potential for Fe developed by Marinica (2011)
EAM_Dynamo_MarinicaVentelonGilbert_2013EAM2_W__MO_204305659515_000 Finnis-Sinclair potential for W developed by Marinica et al. (2013); Potential EAM2
EAM_Dynamo_MarinicaVentelonGilbert_2013EAM3_W__MO_706622909913_000 Finnis-Sinclair potential for W developed by Marinica et al. (2013); Potential EAM3
EAM_Dynamo_MarinicaVentelonGilbert_2013EAM4__MO_046576227003_000 Finnis-Sinclair potential for W developed by Marinica et al. (2013); Potential EAM4
EAM_Dynamo_Mendelev_2003_Fe__MO_546673549085_000 EAM Fe Potential of Mendelev, Han, Srolovitz, Ackland, Sun and Asta
EAM_Dynamo_Mendelev_2007_Zr__MO_848899341753_000 EAM Zr potential of Mendelev and Ackland
EAM_Dynamo_Mendelev_2015_Na__MO_094065024556_000 Finnis-Sinclair potential for Na developed by Mendelev (2015)
EAM_Dynamo_Mendelev_2018_Tb__MO_522239651961_000 EAM/FS potential for Tb by Mendelev from the NIST IPRP, 12 Feb 2018
EAM_Dynamo_MendelevAckland_2007_Zr__MO_537826574817_000 EAM Zr potential of Mendelev and Ackland obtained from NIST
EAM_Dynamo_MendelevAckland_2007v3_Zr__MO_004835508849_000 Finnis-Sinclair potential for Zr developed by Mendelev and Ackland (2007), version 3 refitted for radiation studies
EAM_Dynamo_MendelevAstaRahman_2009_AlMg__MO_658278549784_005 Finnis-Sinclair potential for solid-liquid interfaces in Al-Mg alloys developed by Mendelev et al. (2009)
EAM_Dynamo_MendelevFangYe_2015_AlSm__MO_338600200739_000 Finnis-Sinclair potential for the Al-Sm system developed by Mendelev et al. (2015)
EAM_Dynamo_MendelevHan_Fe__MO_807997826449_000 EAM Fe potential of Mendelev and Han from LAMMPS
EAM_Dynamo_MendelevHanSon_2007_VFe__MO_249706810527_005 Finnis-Sinclair potential for the V-Fe system developed by Mendelev et al. (2007)
EAM_Dynamo_MendelevHanSrolovitz_2003Potential2_Fe__MO_769582363439_005 EAM potential for Fe developed by Mendelev et al. (2003); Potential #2
EAM_Dynamo_MendelevHanSrolovitz_2003Potential5_Fe__MO_942420706858_005 EAM potential for Fe developed by Mendelev et al. (2003); Potential #5
EAM_Dynamo_MendelevKing_2008_Cu__MO_748636486270_005 Finnis-Sinclair potential for Cu with improved stacking fault energy developed by Mendelv and King (2013)
EAM_Dynamo_MendelevKramerBecker_2008_Al__MO_106969701023_005 Finnis-Sinclair potential for Al developed by Mendelev et al. (2008)
EAM_Dynamo_MendelevKramerBecker_2008_Cu__MO_945691923444_005 EAM potential for Cu solidification developed by Mendelev et al. (2008)
EAM_Dynamo_MendelevKramerHao_2012_Ni__MO_832600236922_005 Finnis-Sinclair potential for Ni solidification developed by Mendelev et al. (2012)
EAM_Dynamo_MendelevKramerHao_2012_NiZr__MO_149104665840_005 Finnis-Sinclair potential for the Ni-Zr system developed by Mendelev et al. (2012)
EAM_Dynamo_MendelevKramerOtt_2009_CuZr__MO_600021860456_005 Finnis-Sinclar potential for liquid and amorphous Cu-Zr alloys developed by Mendelev et al. (2009)
EAM_Dynamo_MendelevSordeletKramer_2007_CuZr__MO_120596890176_005 Finnis-Sinclair potential for the Cu-Zr system developed by Mendelev, Sordelet and Kramer (2007)
EAM_Dynamo_MendelevSrolovitzAckland_2005_AlFe__MO_577453891941_005 Finnis-Sinclair potential for the Al-Fe system developed by Mendelev et al. (2005)
EAM_Dynamo_Mishin_2004_NiAl__MO_101214310689_005 EAM potential for the Ni-Al system developed by Mishin (2004)
EAM_Dynamo_MishinFarkasMehl_1999_Al__MO_651801486679_005 EAM potential for Al developed by Mishin et al. (1999)
EAM_Dynamo_MishinFarkasMehl_1999_Ni__MO_400591584784_005 EAM potential for Ni developed by Mishin et al. (1999)
EAM_Dynamo_MishinMehlPapaconstantopoulos_2001_Cu__MO_346334655118_005 EAM potential for Cu developed by Mishin, Mehl and Papaconstantopoulos (2001)
EAM_Dynamo_MishinMehlPapaconstantopoulos_2002_NiAl__MO_109933561507_005 EAM potential for the B2-NiAl compound developed by Mishin, Mehl, and Papaconstantopoulos (2002)
EAM_Dynamo_NicholAckland_2016_Na__MO_048172193005_000 Finnis-Sinclair potential for Na developed by Nichol and Ackland (2016)
EAM_Dynamo_NicholAckland_2016v2_Cs__MO_144828415103_000 Finnis-Sinclair potential for Cs developed by Nichol and Ackland (2016), version 2 refitted for better elastic constants
EAM_Dynamo_NicholAckland_2016v2_Rb__MO_874930365376_000 Finnis-Sinclair potential for Rb developed by Nichol and Ackland (2016), version 2 refitted for better elastic constants
EAM_Dynamo_OBrienBarrPrice_2018_PtAu__MO_946831081299_000 EAM potential for the Pt-Au system developed by O'Brien et al. (2018)
EAM_Dynamo_Olsson_2010_Au__MO_228280943430_000 EAM Au potential of Olsson
EAM_Dynamo_OnatDurukanoglu_2014_CuNi__MO_592013496703_005 An optimized EAM potential for Cu-Ni alloys developed by Onat and Durukanoğlu (2014)
EAM_Dynamo_Pun_2017_Au__MO_188701096956_000 EAM Au potential of Ganga P Purja Pun 2017
EAM_Dynamo_PunMishin_2009_NiAl__MO_751354403791_005 EAM alloy potential for the Ni-Al system developed by Purja Pun and Minshin (2009)
EAM_Dynamo_PunMishin_2012_Co__MO_885079680379_005 EAM potential for hcp and fcc Cobalt developed by Purja Pun and Mishin (2012)
EAM_Dynamo_PunYamakovMishin_2013_AlCo__MO_678952612413_000 EAM potential for the Al-Co system developed by Pun, Yamakov and Mishin (2013)
EAM_Dynamo_PunYamakovMishin_2013_NiAlCo__MO_826591359508_000 EAM potential for the Ni-Al-Co system developed by Pun, Yamakov and Mishin (2013)
EAM_Dynamo_PunYamakovMishin_2015_NiCo__MO_010613863288_000 EAM potential for the Ni-Co system developed by Pun, Yamakov and Mishin (2015)
EAM_Dynamo_RaveloGermannGuerrero_2013Ta1_Ta__MO_816821594689_000 EAM potential for Ta developed by Ravelo et al. (2013) Ta1 Interaction
EAM_Dynamo_RaveloGermannGuerrero_2013Ta2_Ta__MO_330376344314_000 EAM potential for Ta developed by Ravelo et al. (2013) Ta2 Interaction
EAM_Dynamo_SchopfBrommerFrigan_2012_AlMnPd__MO_137572817842_000 EAM potential for the Al-Mn-Pd system developed by Schopf et al. (2012)
EAM_Dynamo_SmirnovaKuskinStarikov_2013_UMoXe__MO_679329885632_005 EAM potential for the ternary U-Mo-Xe system developed by Smirnova et al. (2013)
EAM_Dynamo_SmirnovaStarikov_U__MO_649864794085_000 EAM model of U due to Smirnova, Starikov and Stegailov
EAM_Dynamo_SturgeonLaird_2000_Al__MO_120808805541_005 Melting-point optimized EAM potential for Al developed by Sturgeon and Laird (2000)
EAM_Dynamo_SunMendelevBecker_2006_Mg__MO_848345414202_005 EAM potential for Mg developed by Sun et al. (2006)
EAM_Dynamo_TehranchiCurtin_2010_NiH__MO_535504325462_003 A modification of the Angelo et al. EAM potential for Ni-H with enhanced binding of H atoms to Ni grain boundaries
EAM_Dynamo_VailheFarkas_1997_CoAl__MO_284963179498_005 EAM potential for the Co-Al system developed by Vailhé and Farkas (1997)
EAM_Dynamo_WilliamsMishinHamilton_2006_Ag__MO_131620013077_005 EAM potential for Ag developed by Williams, Mishin and Hamilton (2006)
EAM_Dynamo_WilliamsMishinHamilton_2006_CuAg__MO_128703483589_005 EAM potential for the Cu-Ag system developed by Williams et al. (2006)
EAM_Dynamo_WilsonMendelev_2015_NiZr__MO_306032198193_000 Finnis-Sinclair potential for the Ni-Zr system developed by Wilson and Mendelev (2015)
EAM_Dynamo_WilsonMendelev_2016_Mg__MO_574574915905_000 Finnis-Sinclair potential for Mg developed by Wilson and Mendelev (2016)
EAM_Dynamo_WineyKubotaGupta_2010_Al__MO_149316865608_005 EAM potential for Al developed by Winey, Kubota and Gupta (2010) for shock compression at room and higher temperatures
EAM_Dynamo_WuTrinkle_2009_CuAg__MO_270337113239_005 EAM potential for the Cu-Ag system developed by Wu and Trinkle (2009)
EAM_Dynamo_Zhakhovsky_2009_Al__MO_519613893196_000 EAM potential for Al due to Zhakhovsky et al. (2009)
EAM_Dynamo_Zhakhovsky_2009_Au__MO_173248269481_000 EAM potential for Au from the original analytical potential in file Au-EAM-Zhak1 of 28 August 2008 by Vasily V. Zhakhovsky
EAM_Dynamo_ZhangAshcraftMendelev_2016_NiNb__MO_047308317761_000 Finnis-Sinclair potential for the Ni-Nb system developed by Zhang et al. (2016)
EAM_Dynamo_ZhouJohnsonWadley_2004_Ag__MO_947112899505_005 EAM potential for Ag developed by Zhou, Johnson and Wadley (2004)
EAM_Dynamo_ZhouJohnsonWadley_2004_Al__MO_131650261510_005 EAM potential for Al developed by Zhou, Johnson and Wadley (2004)
EAM_Dynamo_ZhouJohnsonWadley_2004_Au__MO_468407568810_005 EAM potential for Au developed by Zhou, Johnson and Wadley (2004)
EAM_Dynamo_ZhouJohnsonWadley_2004_Co__MO_924630542818_005 EAM potential for Co developed by Zhou, Johnson and Wadley (2004)
EAM_Dynamo_ZhouJohnsonWadley_2004_Cu__MO_127245782811_005 EAM potential for Cu developed by Zhou, Johnson and Wadley (2004)
EAM_Dynamo_ZhouJohnsonWadley_2004_Fe__MO_650279905230_005 EAM potential for Fe developed by Zhou, Johnson and Wadley (2004)
EAM_Dynamo_ZhouJohnsonWadley_2004_Mg__MO_137404467969_005 EAM potential for Mg developed by Zhou, Johnson and Wadley (2004)
EAM_Dynamo_ZhouJohnsonWadley_2004_Mo__MO_271256517527_005 EAM potential for Mo developed by Zhou, Johnson and Wadley (2004)
EAM_Dynamo_ZhouJohnsonWadley_2004_Ni__MO_110256178378_005 EAM potential for Ni developed by Zhou, Johnson and Wadley (2004)
EAM_Dynamo_ZhouJohnsonWadley_2004_Pb__MO_116920074573_005 EAM potential for Pb developed by Zhou, Johnson and Wadley (2004)
EAM_Dynamo_ZhouJohnsonWadley_2004_Ta__MO_130046220009_005 EAM potential for Ta developed by Zhou, Johnson and Wadley (2004)
EAM_Dynamo_ZhouJohnsonWadley_2004_Ti__MO_723456820410_005 EAM potential for Pb developed by Zhou, Johnson and Wadley (2004)
EAM_Dynamo_ZhouJohnsonWadley_2004_W__MO_524392058194_005 EAM alloy potential set table, compatible with LAMMPS
EAM_Dynamo_ZhouJohnsonWadley_2004_Zr__MO_103270551167_005 EAM potential for Zr developed by Zhou, Johnson and Wadley (2004)
EAM_Dynamo_ZhouJohnsonWadley_2004NISTretabulation_CuAgAu__MO_318213562153_000 EAM potential for the Cu-Ag-Au system developed by Zhou, Johnson and Wadley (2004) (NIST retabulation)
EAM_Dynamo_ZhouWadleyJohnson_2001_Al__MO_049243498555_000 EAM potential for Al developed by Zhou, Wadley and Johnson (2001)
EAM_Dynamo_ZhouWadleyJohnson_2001_Cu__MO_380822813353_000 EAM potential for Cu developed by Zhou, Wadley and Johnson (2001)
EAM_Dynamo_ZhouWadleyJohnson_2001_CuTa__MO_547744193826_000 EAM potential for the Cu-Ta system developed by Zhou, Wadley and Johnson (2001)
EAM_Dynamo_ZhouWadleyJohnson_2001_Pt__MO_102190350384_005 EAM potential for Pt developed by Zhou, Wadley and Johnson (2001)
EAM_Dynamo_ZhouWadleyJohnson_2001_W__MO_621445647666_000 EAM potential for W developed by Zhou, Wadley and Johnson (2001)
EAM_Dynamo_ZhouWadleyJohnson_2001NISTretabulation_Ag__MO_505250810900_000 EAM potential for Ag developed by Zhou, Wadley and Johnson (2001) (NIST retabulation)
EAM_Dynamo_ZhouWadleyJohnson_2001NISTretabulation_Al__MO_060567868558_000 EAM potential for Al developed by Zhou, Wadley and Johnson (2001) (NIST retabulation)
EAM_Dynamo_ZhouWadleyJohnson_2001NISTretabulation_Au__MO_684444719999_000 EAM potential for Au developed by Zhou, Wadley and Johnson (2001) (NIST retabulation)
EAM_Dynamo_ZhouWadleyJohnson_2001NISTretabulation_Co__MO_247800397145_000 EAM potential for Co developed by Zhou, Wadley and Johnson (2001) (NIST retabulation)
EAM_Dynamo_ZhouWadleyJohnson_2001NISTretabulation_Cu__MO_759493141826_000 EAM potential for Cu developed by Zhou, Wadley and Johnson (2001) (NIST retabulation)
EAM_Dynamo_ZhouWadleyJohnson_2001NISTretabulation_CuTa__MO_950828638160_000 EAM potential for the Cu-Ta system developed by Zhou, Wadley and Johnson (2001) (NIST retabulation)
EAM_Dynamo_ZhouWadleyJohnson_2001NISTretabulation_Fe__MO_681088298208_000 EAM potential for Fe developed by Zhou, Wadley and Johnson (2001) (NIST retabulation)
EAM_Dynamo_ZhouWadleyJohnson_2001NISTretabulation_Mg__MO_894868634445_000 EAM potential for Mg developed by Zhou, Wadley and Johnson (2001) (NIST retabulation)
EAM_Dynamo_ZhouWadleyJohnson_2001NISTretabulation_Mo__MO_230319944007_000 EAM potential for Mo developed by Zhou, Wadley and Johnson (2001) (NIST retabulation)
EAM_Dynamo_ZhouWadleyJohnson_2001NISTretabulation_Ni__MO_593762436933_000 EAM potential for Ni developed by Zhou, Wadley and Johnson (2001) (NIST retabulation)
EAM_Dynamo_ZhouWadleyJohnson_2001NISTretabulation_Pb__MO_988703794028_000 EAM potential for Pb developed by Zhou, Wadley and Johnson (2001) (NIST retabulation)
EAM_Dynamo_ZhouWadleyJohnson_2001NISTretabulation_Pd__MO_993644691224_000 EAM potential for Pd developed by Zhou, Wadley and Johnson (2001) (NIST retabulation)
EAM_Dynamo_ZhouWadleyJohnson_2001NISTretabulation_Pt__MO_601539325066_000 EAM potential for Pt developed by Zhou, Wadley and Johnson (2001) (NIST retabulation)
EAM_Dynamo_ZhouWadleyJohnson_2001NISTretabulation_Ta__MO_568033730744_000 EAM potential for Ta developed by Zhou, Wadley and Johnson (2001) (NIST retabulation)
EAM_Dynamo_ZhouWadleyJohnson_2001NISTretabulation_Ti__MO_101966451181_000 EAM potential for Ti developed by Zhou, Wadley and Johnson (2001) (NIST retabulation)
EAM_Dynamo_ZhouWadleyJohnson_2001NISTretabulation_W__MO_914556822329_000 EAM potential for W developed by Zhou, Wadley and Johnson (2001) (NIST retabulation)
EAM_Dynamo_ZhouWadleyJohnson_2001NISTretabulation_Zr__MO_380166217430_000 EAM potential for Zr developed by Zhou, Wadley and Johnson (2001) (NIST retabulation)
EAM_Dynamo_ZhouZimmermanWong_2008_PdH__MO_114797992931_000 EAM potential for the Pd-H system developed by Zhou et al. (2008)
EAM_Dynamo_ZopeMishin_2003_Al__MO_664470114311_005 EAM potential for Al developed by Zope and Mishin (2003)
EAM_Dynamo_ZopeMishin_2003_TiAl__MO_117656786760_005 EAM potential for the Ti-Al system developed by Zope and Mishin (2003)
EAM_ErcolessiAdams_1994_Al__MO_324507536345_002 A glue potential (EAM-style) for Al due to Ercolessi and Adams
EAM_IMD_BrommerBoissieuEuchner_2009_MgZn__MO_710767216198_003 EAM potential for the Mg-Zn system developed by Brommer et al. (2009)
EAM_IMD_BrommerGaehler_2006A_AlNiCo__MO_122703700223_003 EAM potential for the Al-Ni-Co system for quasicrystals developed by Brommer and Gaehler (2006); Potential A
EAM_IMD_BrommerGaehler_2006B_AlNiCo__MO_128037485276_003 EAM potential for the Al-Ni-Co system for quasicrystals developed by Brommer and Gaehler (2006); Potential B
EAM_IMD_BrommerGaehlerMihalkovic_2007_CaCd__MO_145183423516_003 EAM potential for the Ca-Cd system developed by Brommer, Gaehler and Mihalkovic (2007)
EAM_IMD_SchopfBrommerFrigan_2012_AlMnPd__MO_878712978062_003 EAM potential for the Al-Mn-Pd system developed by Schopf et al. (2012)
EAM_Magnetic2GQuintic_ChiesaDerletDudarev_2011_Fe__MO_140444321607_002 EAM potential for magnetic Fe developed by Chiesa et al. (2011)
EAM_MagneticCubic_DerletNguyenDudarev_2007_Mo__MO_424746498193_002 EAM potential for Mo developed by Derlet, Nguyen-Manh and Dudarev (2007)
EAM_MagneticCubic_DerletNguyenDudarev_2007_Nb__MO_218026715338_002 EAM potential for Nb developed by Derlet, Nguyen-Manh and Dudarev (2007)
EAM_MagneticCubic_DerletNguyenDudarev_2007_Ta__MO_261274272789_002 EAM potential for Ta developed by Derlet, Nguyen-Manh and Dudarev (2007)
EAM_MagneticCubic_DerletNguyenDudarev_2007_V__MO_683890323730_002 EAM potential for V developed by Derlet, Nguyen-Manh and Dudarev (2007)
EAM_MagneticCubic_DerletNguyenDudarev_2007_W__MO_195478838873_002 EAM potential for W developed by Derlet, Nguyen-Manh and Dudarev (2007)
EAM_MagneticCubic_DudarevDerlet_2005_Fe__MO_135034229282_002 EAM potential for magnetic Fe developed by Dudarev and Derlet (2005)
EAM_MagneticCubic_MendelevHanSrolovitz_2003_Fe__MO_856295952425_002 EAM potential for magnetic Fe developed by Mendelev et al. (2003)
EAM_NN_Johnson_1988_Cu__MO_887933271505_002 Analytical nearest-neighbor EAM model for Cu by Johnson
EAM_QuinticClampedSpline_ErcolessiAdams_1994_Al__MO_450093727396_002 EAM potential for Al developed by Ercolessi and Adams (1994)
EAM_QuinticHermiteSpline_ErcolessiAdams_1994_Al__MO_781138671863_002 EAM potential for Al developed by Ercolessi and Adams (1994)
EDIP_BelkoGusakovDorozhkin_2010_Ge__MO_129433059219_001 EDIP model for Ge developed by Belko, Gusakov and Dorozhkin (2010)
EDIP_JustoBazantKaxiras_1998_Si__MO_958932894036_002 EDIP model for Si developed by Justo et al. (1998)
EMT_Asap_MetalGlass_CuMgZr__MO_655725647552_002 Effective Medium Theory potential for CuMg and CuZr alloys, in particular metallic glasses.
EMT_Asap_Standard_Jacobsen_Stoltze_Norskov_AlAgAuCuNiPdPt__MO_118428466217_002 Standard Effective Medium Theory potential for face-centered cubic metals as implemented in ASE/Asap.
Exp6_KongChakrabarty_1973_ArNe__MO_946046425752_002 Exp-6 pair potential for Ar-Ne with parameters due to Hogervorst and mixing rule due to Kong and Chakrabarty
LJ_ElliottAkerson_2015_Universal__MO_959249795837_003 Efficient 'universal' shifted Lennard-Jones model for all KIM API supported species
LJ_Shifted_Bernardes_1958HighCutoff_Ar__MO_242741380554_003 Shifted Lennard-Jones model for Ar with parameters from Bernardes (1958) (high precision cutoff)
LJ_Shifted_Bernardes_1958HighCutoff_Kr__MO_923895531627_003 Shifted Lennard-Jones model for Kr with parameters from Bernardes (1958) (high precision cutoff)
LJ_Shifted_Bernardes_1958HighCutoff_Ne__MO_966254629593_003 Shifted Lennard-Jones model for Ne with parameters from Bernardes (1958) (high precision cutoff)
LJ_Shifted_Bernardes_1958HighCutoff_Xe__MO_796748253903_003 Shifted Lennard-Jones model for Xe with parameters from Bernardes (1958) (high precision cutoff)
LJ_Shifted_Bernardes_1958LowCutoff_Ar__MO_720819638419_003 Shifted Lennard-Jones model for Ar with parameters from Bernardes (1958) (low precision cutoff)
LJ_Shifted_Bernardes_1958LowCutoff_Kr__MO_995724792024_003 Shifted Lennard-Jones model for Kr with parameters from Bernardes (1958) (low precision cutoff)
LJ_Shifted_Bernardes_1958LowCutoff_Ne__MO_466741694288_003 Shifted Lennard-Jones model for Ne with parameters from Bernardes (1958) (low precision cutoff)
LJ_Shifted_Bernardes_1958LowCutoff_Xe__MO_648694198005_003 Shifted Lennard-Jones model for Xe with parameters from Bernardes (1958) (low precision cutoff)
LJ_Shifted_Bernardes_1958MedCutoff_Ar__MO_126566794224_003 Shifted Lennard-Jones model for Ar with parameters from Bernardes (1958) (medium precision cutoff)
LJ_Shifted_Bernardes_1958MedCutoff_Kr__MO_984281096460_003 Shifted Lennard-Jones model for Kr with parameters from Bernardes (1958) (medium precision cutoff)
LJ_Shifted_Bernardes_1958MedCutoff_Ne__MO_160637895352_003 Shifted Lennard-Jones model for Ne with parameters from Bernardes (1958) (medium precision cutoff)
LJ_Shifted_Bernardes_1958MedCutoff_Xe__MO_849320763277_003 Shifted Lennard-Jones model for Xe with parameters from Bernardes (1958) (medium precision cutoff)
LJ_Smoothed_Bernardes_1958_Ar__MO_764178710049_001 Smoothed Lennard-Jones mode for Ar with parameters from Bernardes (1958)
LJ_Truncated_Nguyen_2005_Ar__MO_398194508715_001 Truncated Lennard-Jones model for Ar with parameters from Nguyen (2005)
MEAM_2NN_Fe_to_Ga__MO_145522277939_001 Model parameterization of 2NN MEAM model
MEAM_2NN_GaInN__MO_117938381510_001 Model parameterization of 2NN MEAM model
MEAM_2NN_LiSi__MO_596436139350_001 meam potential for Li-Si alloys
MFF_MistriotisFlytzanisFarantos_1989_Si__MO_080526771943_001 An MFF potential for Si developed by Mistriotis, Flytzanis and Farantos (1989)
model_ArCHHeXe_BOP_AIREBO__MO_154399806462_001 AIREBO reactive potential for carbon and hydrocarbon systems
Morse_EIP_GuthikondaElliott_2011_AuCd__MO_703849496106_002 Morse effective interaction potential for the AuCd shape-memory alloy developed by Guthikonda and Elliott (2011)
Morse_QuinticSmoothed_Jelinek_1972_Ar__MO_908645784389_001 Morse potential for Ar developed by Jelinek (1972) with quintic smoothing at cutoff
Morse_Shifted_GirifalcoWeizer_1959HighCutoff_Ag__MO_111986436268_002 Morse potential for Ag by Girifalco and Weizer (1959) using a high-accuracy cutoff distance
Morse_Shifted_GirifalcoWeizer_1959HighCutoff_Ba__MO_676977998912_002 Morse potential for Ba by Girifalco and Weizer (1959) using a high-accuracy cutoff distance
Morse_Shifted_GirifalcoWeizer_1959HighCutoff_Ca__MO_159753408472_002 Morse potential for Ca by Girifalco and Weizer (1959) using a high-accuracy cutoff distance
Morse_Shifted_GirifalcoWeizer_1959HighCutoff_Cr__MO_859700307573_002 Morse potential for Cr by Girifalco and Weizer (1959) using a high-accuracy cutoff distance
Morse_Shifted_GirifalcoWeizer_1959HighCutoff_Cs__MO_187111446479_002 Morse potential for Cs by Girifalco and Weizer (1959) using a high-accuracy cutoff distance
Morse_Shifted_GirifalcoWeizer_1959HighCutoff_Cu__MO_151002396060_002 Morse potential for Cu by Girifalco and Weizer (1959) using a high-accuracy cutoff distance
Morse_Shifted_GirifalcoWeizer_1959HighCutoff_Fe__MO_147603128437_002 Morse potential for Fe by Girifalco and Weizer (1959) using a high-accuracy cutoff distance
Morse_Shifted_GirifalcoWeizer_1959HighCutoff_K__MO_836927321152_002 Morse potential for K by Girifalco and Weizer (1959) using a high-accuracy cutoff distance
Morse_Shifted_GirifalcoWeizer_1959HighCutoff_Mo__MO_666830945336_002 Morse potential for Mo by Girifalco and Weizer (1959) using a high-accuracy cutoff distance
Morse_Shifted_GirifalcoWeizer_1959HighCutoff_Na__MO_587469264453_002 Morse potential for Na by Girifalco and Weizer (1959) using a high-accuracy cutoff distance
Morse_Shifted_GirifalcoWeizer_1959HighCutoff_Ni__MO_381861218831_002 Morse potential for Ni by Girifalco and Weizer (1959) using a high-accuracy cutoff distance
Morse_Shifted_GirifalcoWeizer_1959HighCutoff_Pb__MO_370271093517_002 Morse potential for Pb by Girifalco and Weizer (1959) using a high-accuracy cutoff distance
Morse_Shifted_GirifalcoWeizer_1959HighCutoff_Rb__MO_908110223949_002 Morse potential for Rb by Girifalco and Weizer (1959) using a high-accuracy cutoff distance
Morse_Shifted_GirifalcoWeizer_1959HighCutoff_Sr__MO_497591319122_002 Morse potential for Sr by Girifalco and Weizer (1959) using a high-accuracy cutoff distance
Morse_Shifted_GirifalcoWeizer_1959HighCutoff_W__MO_646516726498_002 Morse potential for W by Girifalco and Weizer (1959) using a high-accuracy cutoff distance
Morse_Shifted_GirifalcoWeizer_1959HighCutofft_Al__MO_140175748626_002 Morse potential for Al by Girifalco and Weizer (1959) using a high-accuracy cutoff distance
Morse_Shifted_GirifalcoWeizer_1959LowCutoff_Ag__MO_137719994600_002 Morse potential for Ag by Girifalco and Weizer (1959) using a low-accuracy cutoff distance.
Morse_Shifted_GirifalcoWeizer_1959LowCutoff_Al__MO_411898953661_002 Morse potential for Al by Girifalco and Weizer (1959) using a low-accuracy cutoff distance
Morse_Shifted_GirifalcoWeizer_1959LowCutoff_Ba__MO_143487634619_002 Morse potential for Ba by Girifalco and Weizer (1959) using a low-accuracy cutoff distance
Morse_Shifted_GirifalcoWeizer_1959LowCutoff_Ca__MO_887105884651_002 Morse potential for Ca by Girifalco and Weizer (1959) using a low-accuracy cutoff distance
Morse_Shifted_GirifalcoWeizer_1959LowCutoff_Cr__MO_483480726117_002 Morse potential for Cr by Girifalco and Weizer (1959) using a low-accuracy cutoff distance
Morse_Shifted_GirifalcoWeizer_1959LowCutoff_Cs__MO_256406354561_002 Morse potential for Cs by Girifalco and Weizer (1959) using a low-accuracy cutoff distance
Morse_Shifted_GirifalcoWeizer_1959LowCutoff_Cu__MO_673777079812_002 Morse potential for Cu by Girifalco and Weizer (1959) using a low-accuracy cutoff distance
Morse_Shifted_GirifalcoWeizer_1959LowCutoff_Fe__MO_331285495617_002 Morse potential for Fe by Girifalco and Weizer (1959) using a low-accuracy cutoff distance
Morse_Shifted_GirifalcoWeizer_1959LowCutoff_K__MO_749732139672_002 Morse potential for K by Girifalco and Weizer (1959) using a low-accuracy cutoff distance
Morse_Shifted_GirifalcoWeizer_1959LowCutoff_Mo__MO_228581001644_002 Morse potential for Mo by Girifalco and Weizer (1959) using a low-accuracy cutoff distance
Morse_Shifted_GirifalcoWeizer_1959LowCutoff_Na__MO_707981543254_002 Morse potential for Na by Girifalco and Weizer (1959) using a low-accuracy cutoff distance
Morse_Shifted_GirifalcoWeizer_1959LowCutoff_Ni__MO_322509103239_002 Morse potential for Ni by Girifalco and Weizer (1959) using a low-accuracy cutoff distance
Morse_Shifted_GirifalcoWeizer_1959LowCutoff_Pb__MO_534638645497_002 Morse potential for Pb by Girifalco and Weizer (1959) using a low-accuracy cutoff distance
Morse_Shifted_GirifalcoWeizer_1959LowCutoff_Rb__MO_754498969542_002 Morse potential for Rb by Girifalco and Weizer (1959) using a low-accuracy cutoff distance
Morse_Shifted_GirifalcoWeizer_1959LowCutoff_Sr__MO_801083489225_002 Morse potential for Sr by Girifalco and Weizer (1959) using a low-accuracy cutoff distance
Morse_Shifted_GirifalcoWeizer_1959LowCutoff_W__MO_489351836217_002 Morse potential for W by Girifalco and Weizer (1959) using a low-accuracy cutoff distance
Morse_Shifted_GirifalcoWeizer_1959MedCutoff_Ag__MO_861893969202_002 Morse potential for Ag by Girifalco and Weizer (1959) using a medium-accuracy cutoff distance
Morse_Shifted_GirifalcoWeizer_1959MedCutoff_Al__MO_279544746097_002 Morse potential for Al by Girifalco and Weizer (1959) using a medium-accuracy cutoff distance
Morse_Shifted_GirifalcoWeizer_1959MedCutoff_Ba__MO_229241184339_002 Morse potential for Ba by Girifalco and Weizer (1959) using a medium-accuracy cutoff distance
Morse_Shifted_GirifalcoWeizer_1959MedCutoff_Ca__MO_562200212426_002 Morse potential for Ca by Girifalco and Weizer (1959) using a medium-accuracy cutoff distance
Morse_Shifted_GirifalcoWeizer_1959MedCutoff_Cr__MO_245813471114_002 Morse potential for Cr by Girifalco and Weizer (1959) using a medium-accuracy cutoff distance
Morse_Shifted_GirifalcoWeizer_1959MedCutoff_Cs__MO_999639780744_002 Morse potential for Cs by Girifalco and Weizer (1959) using a medium-accuracy cutoff distance
Morse_Shifted_GirifalcoWeizer_1959MedCutoff_Cu__MO_173787283511_002 Morse potential for Cu by Girifalco and Weizer (1959) using a medium-accuracy cutoff distance
Morse_Shifted_GirifalcoWeizer_1959MedCutoff_Fe__MO_984358344196_002 Morse potential for Fe by Girifalco and Weizer (1959) using a medium-accuracy cutoff distance
Morse_Shifted_GirifalcoWeizer_1959MedCutoff_K__MO_202712315930_002 Morse potential for K by Girifalco and Weizer (1959) using a medium-accuracy cutoff distance
Morse_Shifted_GirifalcoWeizer_1959MedCutoff_Mo__MO_534363225491_002 Morse potential for Mo by Girifalco and Weizer (1959) using a medium-accuracy cutoff distance
Morse_Shifted_GirifalcoWeizer_1959MedCutoff_Na__MO_636041334617_002 Morse potential for Na by Girifalco and Weizer (1959) using a medium-accuracy cutoff distance
Morse_Shifted_GirifalcoWeizer_1959MedCutoff_Ni__MO_758825945924_002 Morse potential for Ni by Girifalco and Weizer (1959) using a medium-accuracy cutoff distance
Morse_Shifted_GirifalcoWeizer_1959MedCutoff_Pb__MO_958424213898_002 Morse potential for Pb by Girifalco and Weizer (1959) using a medium-accuracy cutoff distance
Morse_Shifted_GirifalcoWeizer_1959MedCutoff_Rb__MO_147245690895_002 Morse potential for Rb by Girifalco and Weizer (1959) using a medium-accuracy cutoff distance
Morse_Shifted_GirifalcoWeizer_1959MedCutoff_Sr__MO_964297938209_002 Morse potential for Sr by Girifalco and Weizer (1959) using a medium-accuracy cutoff distance
Morse_Shifted_GirifalcoWeizer_1959MedCutoff_W__MO_390128289865_002 Morse potential for W by Girifalco and Weizer (1959) using a medium-accuracy cutoff distance
Morse_Shifted_Glyde_1970_Ne__MO_169434419764_002 Morse potential for Ne developed by Glyde (1970)
Morse_Shifted_Jelinek_1972_Ar__MO_831902330215_002 Morse potential for Ar by Jelinek (1972)
Morse_SigmoidalSmoothed_Jelinek_1972_Ar__MO_071460865933_001 Morse potential for Ar developed by Jelinek (1972) with sigmoidal smoothing at cutoff
MSMEAM_Gibson_Ti__MO_309653492217_000 Titanium model for multi-state modified embedded atom method
Pair_Johnson_Fe__MO_857282754307_003 Implementation of the Modified Johnson pair potential for Fe
Pair_Morse_Modified_MacDonaldMacDonald_Cu__MO_034823476734_000 Modified Morse pair potential for copper due to MacDonald and MacDonald
SW_BalamaneHaliciogluTiller_1992_Si__MO_113686039439_004 Stillinger-Weber potential for Si developed by Balamane, Halicioglu and Tiller (1992)
SW_BalamaneHauchShi_2017Brittle_Si__MO_381114941873_002 Stillinger-Weber potential with combined modifications of Balamane et al. (1992) and Hauch et al. (1999) exhibiting brittle behavior
SW_BereSerra_2006_GaN__MO_861114678890_000 Stillinger-Weber potential for the Ga-N system developed by Bere and Serra (2006)
SW_HauchHollandMarder_1999Brittle_Si__MO_119167353542_004 Stillinger-Weber potential for brittle Si due to Hauch et al. (1999)
SW_MX2_WenShirodkarPlechac_2017_MoS__MO_201919462778_001 Modified Stillinger-Weber potential developed by Wen et al. (2017) for monolayer MoS2
SW_StillingerWeber_1985_Si__MO_405512056662_005 Stillinger-Weber potenial for Si due to Stillenger and Weber (1985)
SW_WangStroudMarkworth_1989_CdTe__MO_786496821446_000 Stillinger-Weber potential for the Cd-Te system developed by Wang, Stroud and Markworth (1989)
SW_ZhangXieHu_2014OptimizedSW1_Si__MO_800412945727_004 Stillinger-Weber potential for Si optimized for silicene developed by Zhang et al. (2014); Parameterization 'Optimized SW1'
SW_ZhangXieHu_2014OptimizedSW2_Si__MO_475612090600_004 Stillinger-Weber potential for Si optimized for silicene developed by Zhang et al. (2014); Parameterization 'Optimized SW2'
SW_ZhouWardMartin_2013_CdTeZnSeHgS__MO_503261197030_002 Stillinger-Weber potential for the Zn-Cd-Hg-S-Se-Te system developed by Zhou et al. (2013)
Tersoff_LAMMPS_Albe_Nordlund_Averback_PtC__MO_500121566391_001 Tersoff-style three-body potential for PtC by Albe/Nordlund/Averback
Tersoff_LAMMPS_Albe_Nordlund_Nord_Kuronen_GaAs__MO_799020228312_001 Tersoff-style three-body potential for GaAs by Albe/Nordlund/Nord/Kuronen
Tersoff_LAMMPS_Erhart_Albe_CSi__MO_903987585848_002 Tersoff-style three-body potential for SiC by Erhart/Albe
Tersoff_LAMMPS_Erhart_Albe_SiII_CSi__MO_408791041969_001 Tersoff-style three-body potential for SiC by Erhart/Albe, parameter set Si II
Tersoff_LAMMPS_Erhart_Juslin_Goy_Nordlund_Mueller_Albe_ZnO__MO_616776018688_001 Tersoff-style three-body potential for ZnO by Erhart/Juslin/Goy/Nordlund/Müller/Albe
Tersoff_LAMMPS_Mueller_Erhart_Albe_Fe__MO_137964310702_001 Tersoff-style three-body potential for bcc and fcc iron by Müller/Erhart/Albe
Tersoff_LAMMPS_Nord_Albe_Erhart_Nordlund_GaN__MO_612061685362_001 Tersoff-style three-body potential for GaN by Nord/Albe/Erhart/Nordlund
Tersoff_LAMMPS_Tersoff_PRB37_1988_Si__MO_245095684871_001 Tersoff's silicon potential (PRB 37, 1988)
Tersoff_LAMMPS_Tersoff_PRB38_1988_Si__MO_186459956893_001 Tersoff's silicon potential (PRB 38, 1988)
Tersoff_LAMMPS_Tersoff_PRB39_1989_CSi__MO_171585019474_001 Tersoff's silicon carbide potential (PRB 39, 1989)
Tersoff_LAMMPS_Tersoff_PRB39_1989_GeSi__MO_350526375143_001 Tersoff's silicon germanium potential (PRB 39, 1989)
Tersoff_LAMMPS_Tersoff_PRL61_1988_C__MO_579868029681_001 Tersoff's carbon potential (PRL 61, 1988)
TT_Modified_HellmannBichVogel_2007_He__MO_126942667206_002 Ab Initio Ground State He+He Interaction Potential