| density functional theory | DFT | 1068 | 123 | 1.002127 | 1912.00363,1912.00376,etc |
| two dimensional | 2D | 927 | 93 | 1.001674 | 1912.00376,1912.00447,etc |
| density of states | DOS | 559 | 65 | 2.002756 | 1912.00266,1912.00333,etc |
| one dimensional | 1D | 334 | 56 | 1.001918 | 1912.00876,1912.00936,etc |
| generalized gradient approximation | GGA | 97 | 42 | 1.000445 | 1912.00139,1912.00333,etc |
| three dimensional | 3D | 423 | 42 | 2.002482 | 1912.00376,1912.00599,etc |
| antiferromagnetic | AFM | 426 | 32 | 2.003057 | 1912.00876,1912.01535,etc |
| european research council | ERC | 37 | 32 | 1.000143 | 1912.02157,1912.02564,etc |
| molecular dynamics | MD | 372 | 30 | 1.003245 | 1912.00232,1912.00363,etc |
| topological insulator | TI | 197 | 28 | 1.0017 | 1912.00599,1912.00936,etc |
| bose einstein condensate | BEC | 309 | 27 | 2.002988 | 1912.00182,1912.01264,etc |
| deutsche forschungsgemeinschaft | DFG | 35 | 26 | 1.000412 | 1912.00122,1912.02479,etc |
| perdew burke ernzerhof | PBE | 34 | 23 | 1.00037 | 1912.00333,1912.00599,etc |
| transition metal dichalcogenide | TMDC | 210 | 22 | 2.003131 | 1912.00139,1912.02479,etc |
| density matrix renormalization group | DMRG | 145 | 22 | 1.00139 | 1912.00876,1912.01025,etc |
| angle resolved photoemission spectroscopy | ARPES | 254 | 22 | 2.003023 | 1912.00970,1912.01470,etc |
| conformal field theory | CFT | 376 | 22 | 2.002322 | 1912.01025,1912.01034,etc |
| quantum monte carlo | QMC | 187 | 20 | 1.002834 | 1912.01364,1912.01379,etc |
| charge density wave | CDW | 249 | 20 | 2.003903 | 1912.01591,1912.01908,etc |
| monte carlo | MC | 166 | 19 | 2.000667 | 1912.00961,1912.01315,etc |
| local density approximation | LDA | 132 | 18 | 2.001965 | 1912.00139,1912.01888,etc |
| local density of states | LDOS | 141 | 18 | 1.00178 | 1912.00266,1912.01981,etc |
| dynamical mean field theory | DMFT | 149 | 17 | 1.001802 | 1912.00474,1912.01257,etc |
| random phase approximation | RPA | 112 | 17 | 1.001273 | 1912.00474,1912.00875,etc |
| projector augmented wave | PAW | 19 | 16 | 1.000162 | 1912.00129,1912.00333,etc |
| exact diagonalization | ED | 70 | 16 | 1.000462 | 1912.00876,1912.02344,etc |
| time reversal symmetry | TRS | 104 | 16 | 1.001109 | 1912.00944,1912.01993,etc |
| molecular beam epitaxy | MBE | 53 | 16 | 1.000679 | 1912.01470,1912.02766,etc |
| nearest neighbor | NN | 187 | 16 | 1.003099 | 1912.01981,1912.06624,etc |
| quantum critical point | QCP | 187 | 15 | 1.002533 | 1912.00207,1912.01509,etc |
| bardeen cooper schrieffer | BCS | 326 | 15 | 1.003242 | 1912.01264,1912.01867,etc |
| quantum dot | QD | 919 | 15 | 2.008672 | 1912.01311,1912.02136,etc |
| matrix product state | MPS | 308 | 15 | 2.002078 | 1912.02053,1912.04181,etc |
| van der waals | vdW | 63 | 14 | 2.00183 | 1912.00139,1912.01173,etc |
| sachdev ye kitaev | SYK | 676 | 14 | 2.004989 | 1912.01008,1912.02835,etc |
| matrix product operator | MPO | 93 | 14 | 1.002993 | 1912.02780,1912.03529,etc |
| density functional perturbation theory | DFPT | 36 | 13 | 1.000671 | 1912.00139,1912.00363,etc |
| supplemental material | SM | 59 | 13 | 1.000456 | 1912.00376,1912.02215,etc |
| symmetry protected topological | SPT | 266 | 13 | 2.002507 | 1912.01027,1912.02826,etc |
| scanning tunneling microscopy | STM | 91 | 13 | 2.001126 | 1912.01470,1912.01860,etc |
| next nearest neighbor | NNN | 81 | 13 | 1.001628 | 1912.01860,1912.05049,etc |
| quantum spin liquid | QSL | 228 | 13 | 2.00262 | 1912.01868,1912.02118,etc |
| vienna ab initio simulation package | VASP | 16 | 12 | 1.000155 | 1912.00129,1912.01173,etc |
| dzyaloshinskii moriya interaction | DMI | 231 | 12 | 2.006231 | 1912.03056,1912.03465,etc |
| bogoliubov de gennes | BdG | 65 | 12 | 1.00066 | 1912.03279,1912.04447,etc |
| lennard jones | LJ | 62 | 11 | 2.000586 | 1912.00221,1912.00232,etc |
| eigenstate thermalization hypothesis | ETH | 56 | 10 | 2.001253 | 1912.01027,1912.01479,etc |
| mean field | MF | 122 | 10 | 2.001526 | 1912.02502,1912.04104,etc |
| su schrieffer heeger | SSH | 163 | 10 | 2.001363 | 1912.04024,1912.05825,etc |
| hexagonal boron nitride | h-BN | 73 | 10 | 1.002689 | 1912.05570,1912.06083,etc |
| operator product expansion | OPE | 161 | 10 | 2.001944 | 1912.08458,1912.10572,etc |
| quantum phase transition | QPT | 115 | 9 | 2.003087 | 1912.00207,1912.01340,etc |
| vienna simulation package | VASP | 13 | 9 | 1.000132 | 1912.00333,1912.00376,etc |
| low energy electron diffraction | LEED | 66 | 9 | 1.002487 | 1912.00970,1912.01470,etc |
| department of energy | DOE | 19 | 9 | 1.000429 | 1912.01520,1912.03259,etc |
| tight binding | TB | 60 | 9 | 1.000833 | 1912.01860,1912.01981,etc |
| mean square displacement | MSD | 53 | 9 | 1.000997 | 1912.01940,1912.04195,etc |
| periodic boundary conditions | PBC | 73 | 9 | 1.001082 | 1912.02344,1912.03529,etc |
| two dimensional electron gas | 2DEG | 66 | 9 | 2.001604 | 1912.02507,1912.04397,etc |
| supplementary material | SM | 33 | 9 | 1.000521 | 1912.02564,1912.03260,etc |
| fractional quantum hall effect | FQHE | 79 | 9 | 2.001774 | 1912.02577,1912.03762,etc |
| scanning tunneling microscope | STM | 95 | 9 | 2.002437 | 1912.05292,1912.05607,etc |
| many body localization | MBL | 173 | 9 | 2.005693 | 1912.06593,1912.07558,etc |
| national research foundation of korea | NRF | 12 | 8 | 1.000281 | 1912.00112,1912.01465,etc |
| zero field cooled | ZFC | 16 | 8 | 1.000323 | 1912.00116,1912.02118,etc |
| field cooled | FC | 35 | 8 | 1.000675 | 1912.00116,1912.02118,etc |
| swiss national science foundation | SNSF | 14 | 8 | 1.000203 | 1912.00122,1912.04516,etc |
| two dimensions | 2D | 133 | 8 | 2.002853 | 1912.00908,1912.02101,etc |
| pulsed laser deposition | PLD | 23 | 8 | 1.000925 | 1912.00970,1912.04594,etc |
| quantum anomalous hall | QAH | 59 | 8 | 1.003217 | 1912.01173,1912.02352,etc |
| longitudinal optical | LO | 63 | 8 | 1.001863 | 1912.01509,1912.03198,etc |
| swedish national infrastructure for computing | SNIC | 8 | 8 | 1.000173 | 1912.02016,1912.04637,etc |
| atomic force microscopy | AFM | 26 | 8 | 2.00067 | 1912.02157,1912.03611,etc |
| machine learning | ML | 79 | 8 | 2.001458 | 1912.02329,1912.09145,etc |
| japan society for the promotion of science | JSPS | 24 | 8 | 1.000374 | 1912.02363,1912.05747,etc |
| quantum field theory | QFT | 211 | 8 | 2.002804 | 1912.02546,1912.01022,etc |
| transmission electron microscopy | TEM | 43 | 8 | 2.00117 | 1912.03869,1912.04081,etc |
| periodic boundary condition | PBC | 73 | 8 | 2.002084 | 1912.04024,1912.05825,etc |
| supplementary information | SI | 32 | 7 | 1.000687 | 1912.00132,1912.01860,etc |
| valence band maximum | VBM | 24 | 7 | 1.000684 | 1912.00970,1912.01860,etc |
| majorana zero mode | MZM | 125 | 7 | 1.006276 | 1912.01311,1912.04952,etc |
| topological superconductor | TS | 169 | 7 | 2.004271 | 1912.01311,1912.03279,etc |
| dzyaloshinskii moriya | DM | 91 | 7 | 2.003045 | 1912.01364,1912.02363,etc |
| spin density wave | SDW | 30 | 7 | 2.000819 | 1912.01797,1912.03105,etc |
| bethe salpeter equation | BSE | 90 | 7 | 2.003709 | 1912.01888,1912.02546,etc |
| projected augmented wave | PAW | 11 | 7 | 1.00013 | 1912.01938,1912.01993,etc |
| quantum spin hall | QSH | 44 | 7 | 2.000866 | 1912.02352,1912.02749,etc |
| magneto optical trap | MOT | 86 | 7 | 1.007821 | 1912.02737,1912.04395,etc |
| open boundary condition | OPB | 110 | 7 | 1.00215 | 1912.04024,1912.05825,etc |
| artificial neural network | ANN | 124 | 7 | 2.005151 | 1912.08596,1912.08828,etc |
| restricted boltzmann machine | RBM | 108 | 7 | 2.004099 | 1912.08828,1912.08831,etc |
| valence bond solid | VBS | 70 | 6 | 2.005366 | 1912.00080,1912.02118,etc |
| property measurement system | PPMS | 9 | 6 | 1.000211 | 1912.00116,1912.01173,etc |
| conduction band minimum | CBM | 26 | 6 | 1.000533 | 1912.00139,1912.07260,etc |
| resonant inelastic x ray scattering | RIXS | 85 | 6 | 1.002801 | 1912.00194,1912.01364,etc |
| european synchrotron radiation facility | ESRF | 13 | 6 | 1.000588 | 1912.00194,1912.01936,etc |
| carbon nanotube | CNT | 246 | 6 | 2.004535 | 1912.00232,1912.03260,etc |
| twisted bilayer graphene | TBG | 72 | 6 | 2.001593 | 1912.00447,1912.03191,etc |
| ginzburg landau | GL | 35 | 6 | 1.00091 | 1912.00897,1912.01822,etc |
| quantum hall effect | QHE | 24 | 6 | 2.000851 | 1912.00944,1912.05994,etc |