| two dimensional | 2D | 354 | 33 | 2.002719 | 1812.08926,1812.02596,etc |
| density functional theory | DFT | 527 | 30 | 1.004401 | 1812.00932,1812.00863,etc |
| molecular dynamics | MD | 444 | 27 | 2.003393 | 1812.06742,1812.09032,etc |
| one dimensional | 1D | 155 | 22 | 1.001368 | 1812.06845,1812.04921,etc |
| three dimensional | 3D | 308 | 20 | 2.003796 | 1812.08926,1812.00227,etc |
| direct numerical simulation | DNS | 138 | 18 | 1.001457 | 1812.03199,1812.03754,etc |
| quantum electrodynamics | QED | 141 | 17 | 1.003197 | 1812.10881,1812.09495,etc |
| finite element method | FEM | 60 | 17 | 1.00079 | 1812.08859,1812.02212,etc |
| direct numerical simulations | DNS | 194 | 17 | 2.001136 | 1812.11237,1812.06031,etc |
| signal to noise ratio | SNR | 103 | 16 | 1.001442 | 1812.11206,1812.02653,etc |
| particle in cell | PIC | 123 | 16 | 1.002133 | 1812.03391,1812.09959,etc |
| probability density function | PDF | 178 | 15 | 2.002389 | 1812.04572,1812.08489,etc |
| time of flight | TOF | 72 | 15 | 1.001425 | 1812.09039,1812.06868,etc |
| electromagnetic | EM | 218 | 14 | 1.001963 | 1812.09612,1812.01182,etc |
| magneto optical trap | MOT | 140 | 14 | 1.003434 | 1812.00106,1812.01028,etc |
| fast fourier transform | FFT | 50 | 14 | 1.00072 | 1812.03754,1812.03842,etc |
| full width at half maximum | FWHM | 44 | 14 | 1.000834 | 1812.00227,1812.11524,etc |
| convolutional neural network | CNN | 159 | 13 | 2.002362 | 1812.05631,1812.00510,etc |
| european research council | ERC | 15 | 13 | 1.000166 | 1812.11206,1812.06350,etc |
| monte carlo | MC | 97 | 13 | 2.000749 | 1812.05679,1812.01430,etc |
| hartree fock | HF | 189 | 12 | 2.002423 | 1812.05266,1812.02661,etc |
| orbital angular momentum | OAM | 148 | 12 | 2.004213 | 1812.01912,1812.06774,etc |
| machine learning | ML | 177 | 10 | 2.001967 | 1812.05144,1812.07669,etc |
| magnetohydrodynamic | MHD | 250 | 10 | 2.005193 | 1812.10827,1812.09429,etc |
| equation of state | EoS | 73 | 10 | 2.002177 | 1812.00753,1812.11237,etc |
| power spectral density | PSD | 39 | 10 | 2.001178 | 1812.03842,1812.06350,etc |
| standard model | SM | 63 | 10 | 2.001437 | 1812.11911,1812.01986,etc |
| ordinary differential equation | ODE | 39 | 10 | 2.000557 | 1812.05713,1812.01365,etc |
| artificial neural network | ANN | 156 | 9 | 2.003834 | 1812.05631,1812.05144,etc |
| large eddy simulation | LES | 70 | 9 | 1.000998 | 1812.03262,1812.03754,etc |
| transverse electric | TE | 70 | 9 | 2.001902 | 1812.04547,1812.02212,etc |
| photomultiplier tube | PMT | 154 | 9 | 2.003151 | 1812.11604,1812.05552,etc |
| region of interest | ROI | 36 | 9 | 1.000373 | 1812.02365,1812.05552,etc |
| natural science foundation of china | NSFC | 10 | 9 | 1.000254 | 1812.10070,1812.00799,etc |
| finite difference time domain | FDTD | 60 | 9 | 1.001003 | 1812.05466,1812.03816,etc |
| particle image velocimetry | PIV | 73 | 9 | 2.001069 | 1812.05460,1812.10167,etc |
| deutsche forschungsgemeinschaft | DFG | 9 | 8 | 1.000166 | 1812.05631,1812.08483,etc |
| lattice boltzmann method | LBM | 217 | 8 | 2.006526 | 1812.05144,1812.07884,etc |
| local density approximation | LDA | 46 | 8 | 2.001353 | 1812.03112,1812.08952,etc |
| mean absolute error | MAE | 60 | 8 | 2.001933 | 1812.02653,1812.02320,etc |
| terahertz | THz | 221 | 8 | 2.00808 | 1812.09959,1812.01182,etc |
| electromagnetically induced transparency | EIT | 48 | 8 | 2.00114 | 1812.01912,1812.08511,etc |
| partial differential equation | PDE | 196 | 8 | 1.006567 | 1812.08625,1812.04426,etc |
| printed circuit board | PCB | 50 | 8 | 1.000452 | 1812.02018,1812.02445,etc |
| computational fluid dynamics | CFD | 44 | 7 | 1.001132 | 1812.05144,1812.00390,etc |
| coupled cluster | CC | 486 | 7 | 2.007424 | 1812.05266,1812.04393,etc |
| singular value decomposition | SVD | 21 | 7 | 1.000839 | 1812.05241,1812.07669,etc |
| bose einstein condensate | BEC | 84 | 7 | 1.002932 | 1812.00106,1812.09047,etc |
| radio frequency | RF | 28 | 7 | 2.00088 | 1812.01028,1812.05983,etc |
| free spectral range | FSR | 15 | 7 | 1.00037 | 1812.08926,1812.02426,etc |
| continuous wave | CW | 25 | 7 | 1.001193 | 1812.03812,1812.04596,etc |
| kohn sham | KS | 67 | 7 | 2.004642 | 1812.02661,1812.05512,etc |
| swedish national infrastructure for computing | SNIC | 7 | 7 | 1.000089 | 1812.03754,1812.03762,etc |
| navier stokes | NS | 48 | 7 | 2.000722 | 1812.04789,1812.00390,etc |
| center of mass | COM | 40 | 7 | 1.002248 | 1812.09176,1812.10253,etc |
| ultraviolet | UV | 50 | 7 | 2.001736 | 1812.00323,1812.09839,etc |
| principal component analysis | PCA | 33 | 6 | 1.00105 | 1812.00106,1812.01177,etc |
| particle identification | PID | 22 | 6 | 1.000635 | 1812.05679,1812.01246,etc |
| natural sciences and engineering research council of canada | NSERC | 6 | 6 | 1.000103 | 1812.04547,1812.10877,etc |
| quantum efficiency | QE | 45 | 6 | 1.001491 | 1812.09317,1812.00323,etc |
| perfect electric conductor | PEC | 18 | 6 | 1.000338 | 1812.03391,1812.04725,etc |
| adverse pressure gradient | APG | 184 | 6 | 2.003743 | 1812.03754,1812.03762,etc |
| markov chain monte carlo | MCMC | 25 | 6 | 2.00043 | 1812.00863,1812.09140,etc |
| lennard jones | LJ | 62 | 6 | 2.002323 | 1812.00863,1812.02185,etc |
| time dependent schr"odinger equation | TDSE | 42 | 6 | 2.001175 | 1812.07758,1812.07309,etc |
| national research foundation of korea | NRF | 11 | 6 | 1.00032 | 1812.02242,1812.00095,etc |
| discrete variable representation | DVR | 10 | 6 | 1.000879 | 1812.00227,1812.01676,etc |
| infrared | IR | 53 | 6 | 1.002507 | 1812.08687,1812.03256,etc |
| laguerre gaussian | LG | 62 | 6 | 1.002758 | 1812.01912,1812.08416,etc |
| data acquisition | DAQ | 40 | 6 | 2.000659 | 1812.05552,1812.08036,etc |
| transverse magnetic | TM | 58 | 6 | 2.002055 | 1812.07456,1812.03857,etc |
| full configuration interaction | FCI | 85 | 6 | 2.001046 | 1812.07088,1812.04393,etc |
| electro optic modulator | EOM | 18 | 5 | 2.000226 | 1812.07588,1812.09417,etc |
| high performance computing | HPC | 19 | 5 | 1.001252 | 1812.04278,1812.04789,etc |
| discontinuous galerkin | DG | 203 | 5 | 1.00506 | 1812.04278,1812.04789,etc |
| magnetic resonance imaging | MRI | 29 | 5 | 2.001247 | 1812.00510,1812.02334,etc |
| dynamic mode decomposition | DMD | 64 | 5 | 2.005113 | 1812.05241,1812.07669,etc |
| message passing interface | MPI | 45 | 5 | 1.001232 | 1812.11403,1812.07977,etc |
| transition metal dichalcogenide | TMD | 38 | 5 | 1.003607 | 1812.02596,1812.08162,etc |
| van der waals | vdW | 50 | 5 | 1.001523 | 1812.00932,1812.03232,etc |
| courant friedrichs lewy | CFL | 11 | 5 | 1.000157 | 1812.06840,1812.06422,etc |
| finite volume method | FVM | 29 | 5 | 1.000311 | 1812.08859,1812.00390,etc |
| photomultiplier | PMT | 57 | 5 | 2.001461 | 1812.05983,1812.02000,etc |
| turbulent kinetic energy | TKE | 32 | 5 | 1.00053 | 1812.03754,1812.03670,etc |
| recurrent neural network | RNN | 14 | 5 | 1.000862 | 1812.07421,1812.08933,etc |
| computed tomography | CT | 133 | 5 | 1.003756 | 1812.02365,1812.01430,etc |
| inertial confinement fusion | ICF | 14 | 5 | 1.00026 | 1812.11237,1812.08385,etc |
| electric dipole moment | EDM | 129 | 5 | 2.00439 | 1812.02381,1812.02970,etc |
| atomic force microscopy | AFM | 29 | 5 | 2.001739 | 1812.08687,1812.09495,etc |
| perdew burke ernzerhof | PBE | 22 | 5 | 1.000936 | 1812.11018,1812.05150,etc |
| general relativity | GR | 27 | 5 | 2.001069 | 1812.02568,1812.03830,etc |
| high order harmonic generation | HHG | 22 | 5 | 1.000965 | 1812.10070,1812.05757,etc |
| zero phonon line | ZPL | 46 | 5 | 1.001993 | 1812.01548,1812.02530,etc |
| engineering and physical sciences research council | EPSRC | 7 | 5 | 1.000108 | 1812.01548,1812.06405,etc |
| silicon on insulator | SOI | 19 | 5 | 2.00096 | 1812.02212,1812.03158,etc |
| photoluminescence | PL | 36 | 5 | 2.000792 | 1812.09495,1812.09517,etc |
| hexagonal boron nitride | hBN | 29 | 5 | 1.003626 | 1812.08162,1812.02530,etc |
| su schrieffer heeger | SSH | 31 | 5 | 1.001027 | 1812.08185,1812.02218,etc |
| coherent population trapping | CPT | 47 | 5 | 1.005424 | 1812.01703,1812.08511,etc |
| time projection chamber | TPC | 133 | 5 | 1.005933 | 1812.06257,1812.08036,etc |
|