| density functional theory | DFT | 905 | 108 | 2.001502 | 1806.00055,1806.00122,etc |
| two dimensional | 2D | 895 | 77 | 2.003089 | 1806.00117,1806.00155,etc |
| density of states | DOS | 383 | 62 | 1.001605 | 1806.00163,1806.00174,etc |
| one dimensional | 1D | 345 | 52 | 1.001475 | 1806.00019,1806.01292,etc |
| spin orbit coupling | SOC | 460 | 44 | 2.002983 | 1806.00559,1806.00594,etc |
| antiferromagnetic | AF | 870 | 42 | 2.006174 | 1806.00438,1806.00559,etc |
| three dimensional | 3D | 255 | 40 | 1.001587 | 1806.00117,1806.00155,etc |
| generalized gradient approximation | GGA | 161 | 35 | 2.002253 | 1806.00217,1806.00412,etc |
| brillouin zone | BZ | 206 | 30 | 2.001133 | 1806.00280,1806.00594,etc |
| monte carlo | MC | 290 | 29 | 2.002236 | 1806.00641,1806.01002,etc |
| ferromagnetic | FM | 712 | 27 | 2.006603 | 1806.00163,1806.00412,etc |
| molecular dynamics | MD | 286 | 26 | 2.002205 | 1806.00055,1806.00217,etc |
| density matrix renormalization group | DMRG | 226 | 26 | 1.002942 | 1806.01434,1806.01465,etc |
| transition metal dichalcogenide | TMDC | 205 | 25 | 2.002102 | 1806.01447,1806.01944,etc |
| local density approximation | LDA | 109 | 23 | 2.002509 | 1806.00462,1806.01511,etc |
| nuclear magnetic resonance | NMR | 280 | 23 | 1.002276 | 1806.01233,1806.01328,etc |
| angle resolved photoemission spectroscopy | ARPES | 142 | 22 | 1.0014 | 1806.00117,1806.00197,etc |
| quantum monte carlo | QMC | 417 | 22 | 2.004198 | 1806.00122,1806.00829,etc |
| perdew burke ernzerhof | PBE | 49 | 22 | 1.000935 | 1806.00122,1806.00594,etc |
| quantum dot | QD | 818 | 22 | 2.005686 | 1806.00611,1806.00633,etc |
| projector augmented wave | PAW | 32 | 22 | 1.000158 | 1806.01251,1806.01536,etc |
| x ray diffraction | XRD | 85 | 21 | 1.000853 | 1806.00163,1806.00803,etc |
| nearest neighbor | NN | 338 | 21 | 2.003513 | 1806.00217,1806.00240,etc |
| european research council | ERC | 24 | 21 | 1.000194 | 1806.00829,1806.02158,etc |
| bose einstein condensate | BEC | 238 | 20 | 2.002822 | 1806.00376,1806.02164,etc |
| dynamical mean field theory | DMFT | 211 | 19 | 1.003365 | 1806.00122,1806.00470,etc |
| random phase approximation | RPA | 91 | 19 | 2.000872 | 1806.00948,1806.01132,etc |
| renormalization group | RG | 333 | 19 | 1.002212 | 1806.02874,1806.03130,etc |
| exact diagonalization | ED | 102 | 18 | 2.000899 | 1806.00019,1806.00282,etc |
| topological insulator | TI | 227 | 18 | 1.003556 | 1806.01548,1806.01860,etc |
| charge density wave | CDW | 426 | 17 | 1.008755 | 1806.00197,1806.00488,etc |
| hexagonal boron nitride | hBN | 397 | 17 | 2.006562 | 1806.02168,1806.02174,etc |
| department of energy | DOE | 31 | 16 | 1.000482 | 1806.00055,1806.00122,etc |
| bogoliubov de gennes | BdG | 102 | 16 | 2.001348 | 1806.01244,1806.01399,etc |
| quantum critical point | QCP | 195 | 16 | 2.002178 | 1806.01432,1806.02347,etc |
| time reversal symmetry | TRS | 135 | 15 | 1.00195 | 1806.01239,1806.01395,etc |
| van der waals | vdW | 128 | 14 | 2.002326 | 1806.00163,1806.01251,etc |
| local density of states | LDOS | 82 | 14 | 2.00193 | 1806.00217,1806.00282,etc |
| dzyaloshinskii moriya interaction | DMI | 446 | 14 | 2.005712 | 1806.00294,1806.00412,etc |
| fermi surface | FS | 271 | 13 | 2.002146 | 1806.00117,1806.00280,etc |
| paramagnetic | PM | 113 | 13 | 1.003515 | 1806.00163,1806.00412,etc |
| deutsche forschungsgemeinschaft | DFG | 14 | 13 | 1.000252 | 1806.00376,1806.01784,etc |
| quantum spin liquid | QSL | 153 | 13 | 2.003823 | 1806.00803,1806.00855,etc |
| level | LL | 183 | 12 | 1.005159 | 1806.00174,1806.01415,etc |
| non fermi liquid | NFL | 92 | 12 | 1.000954 | 1806.00438,1806.01432,etc |
| superconducting | SC | 223 | 12 | 2.002698 | 1806.00470,1806.01465,etc |
| inelastic neutron scattering | INS | 83 | 12 | 2.001277 | 1806.00855,1806.01511,etc |
| mean field | MF | 174 | 12 | 1.001964 | 1806.01607,1806.01717,etc |
| symmetry protected topological | SPT | 329 | 12 | 2.002878 | 1806.01860,1806.01925,etc |
| nitrogen vacancy | NV | 256 | 12 | 2.005837 | 1806.02572,1806.06845,etc |
| bardeen cooper schrieffer | BCS | 59 | 11 | 1.001743 | 1806.00163,1806.00323,etc |
| photoluminescence | PL | 120 | 11 | 2.003562 | 1806.00174,1806.02006,etc |
| property measurement system | PPMS | 12 | 11 | 1.000081 | 1806.00639,1806.00803,etc |
| vienna ab initio simulation package | VASP | 19 | 11 | 1.000645 | 1806.00639,1806.01338,etc |
| spin density wave | SDW | 67 | 11 | 1.000784 | 1806.00948,1806.01432,etc |
| valence band maximum | VBM | 85 | 11 | 2.000897 | 1806.01001,1806.01251,etc |
| conduction band minimum | CBM | 62 | 11 | 2.000874 | 1806.01001,1806.01251,etc |
| spin orbit | SO | 322 | 11 | 2.003462 | 1806.01206,1806.02158,etc |
| tight binding | TB | 93 | 11 | 2.000944 | 1806.01415,1806.01707,etc |
| sachdev ye kitaev | SYK | 321 | 11 | 2.005919 | 1806.01723,1806.10405,etc |
| rotating wave approximation | RWA | 75 | 11 | 1.002032 | 1806.01880,1806.03592,etc |
| su schrieffer heeger | SSH | 48 | 10 | 1.001968 | 1806.00026,1806.03337,etc |
| spectroscopy | STS | 101 | 10 | 1.001031 | 1806.00402,1806.01273,etc |
| superconducting quantum interference device | SQUID | 52 | 10 | 1.001543 | 1806.00559,1806.00617,etc |
| full width at half maximum | FWHM | 25 | 10 | 1.000329 | 1806.00668,1806.01141,etc |
| many body localization | MBL | 280 | 10 | 2.004172 | 1806.01193,1806.01688,etc |
| scanning electron microscope | SEM | 39 | 10 | 1.00087 | 1806.01394,1806.03515,etc |
| low energy electron diffraction | LEED | 85 | 10 | 1.003477 | 1806.02174,1806.02385,etc |
| mean square displacement | MSD | 58 | 10 | 1.00095 | 1806.02761,1806.03017,etc |
| ultra high vacuum | UHV | 41 | 10 | 2.001043 | 1806.03061,1806.03739,etc |
| infrared | IR | 60 | 9 | 2.001136 | 1806.00163,1806.03433,etc |
| molecular beam epitaxy | MBE | 30 | 9 | 1.001364 | 1806.00197,1806.02268,etc |
| scanning tunneling microscope | STM | 122 | 9 | 2.003583 | 1806.00197,1806.00323,etc |
| fast fourier transform | FFT | 132 | 9 | 1.003855 | 1806.00376,1806.01415,etc |
| quantum phase transition | QPT | 64 | 9 | 1.001191 | 1806.01867,1806.02532,etc |
| next nearest neighbor | NNN | 79 | 9 | 2.002689 | 1806.02125,1806.03761,etc |
| dzyaloshinskii moriya | DM | 122 | 9 | 1.003642 | 1806.02125,1806.02158,etc |
| scanning tunneling microscopy | STM | 54 | 9 | 1.001474 | 1806.02158,1806.03854,etc |
| conformal field theory | CFT | 90 | 9 | 2.001289 | 1806.02330,1806.03304,etc |
| probability density function | PDF | 120 | 9 | 2.0019 | 1806.02761,1806.02764,etc |
| lennard jones | LJ | 42 | 9 | 1.000503 | 1806.03710,1806.04939,etc |
| majorana zero mode | MZM | 306 | 8 | 2.002883 | 1806.00988,1806.01399,etc |
| x ray photoelectron spectroscopy | XPS | 51 | 8 | 1.001405 | 1806.01394,1806.03895,etc |
| spin orbit interaction | SOI | 124 | 8 | 2.004337 | 1806.01415,1806.02439,etc |
| periodic boundary conditions | PBC | 28 | 8 | 1.000407 | 1806.01598,1806.03761,etc |
| gaussian orthogonal ensemble | GOE | 68 | 8 | 2.001135 | 1806.01688,1806.01723,etc |
| chemical vapor deposition | CVD | 37 | 8 | 1.002467 | 1806.02006,1806.03214,etc |
| radio frequency | RF | 85 | 8 | 2.001955 | 1806.02268,1806.06263,etc |
| two dimensions | 2D | 105 | 7 | 2.001555 | 1806.00280,1806.01739,etc |
| anomalous hall effect | AHE | 85 | 7 | 1.001512 | 1806.00294,1806.02245,etc |
| kohn sham | KS | 34 | 7 | 2.001645 | 1806.00443,1806.05731,etc |
| matrix product states | MPS | 56 | 7 | 1.001727 | 1806.00624,1806.03339,etc |
| density functional perturbation theory | DFPT | 25 | 7 | 1.001265 | 1806.00847,1806.05609,etc |
| hartree fock | HF | 104 | 7 | 2.002697 | 1806.00853,1806.03043,etc |
| crystalline electric field | CEF | 73 | 7 | 1.002825 | 1806.00948,1806.01964,etc |
| room temperature | RT | 61 | 7 | 1.001727 | 1806.01142,1806.01394,etc |
| national science foundation | NSF | 13 | 7 | 1.000253 | 1806.01867,1806.05769,etc |
| transition metal | TM | 141 | 7 | 2.002169 | 1806.02050,1806.04760,etc |
| atomic force microscopy | AFM | 15 | 7 | 1.000529 | 1806.02217,1806.02535,etc |
| magnetoresistance | MR | 143 | 7 | 1.004553 | 1806.02302,1806.07118,etc |
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