Physics
Fermion
100%
Optical Tweezer
95%
Laser Cooling
63%
Quantum Simulation
63%
Ground State
55%
Fermi Gas
53%
Quantum Information Processing
41%
Superfluid
38%
Quantum Dot
34%
Optical Lattice
31%
Equations of State
28%
Excitation
25%
Quantum Computing
25%
Physics
25%
Optical Transition
22%
Nuclear Spin
19%
Anisotropy
19%
Conductive Heat Transfer
19%
Monte Carlo
19%
Spin Diffusion
19%
Spectra
19%
Feynman Diagram
19%
Harmonics
19%
Transport Property
19%
Holography
19%
Quantum Gas
19%
Refractory Metal
19%
Many Body Theory
14%
Binding Energy
12%
Magnetic Field
12%
Coherence
11%
Compressibility
9%
High Temperature Superconductivity
9%
Solitary Wave
9%
Quantum Statistics
9%
Degenerate Matter
9%
Nuclear Matter
9%
Inelastic Collision
9%
Rotational State
9%
Electric Fields
7%
Bose-Einstein Condensate
6%
Photon Scattering
6%
Zero-Temperature
6%
High Resolution
6%
Second Harmonic Generation
6%
Optics
6%
Physics beyond the Standard Model
6%
Polyatomic Molecule
6%
Keyphrases
Resonance Imaging
19%
Calcium Monofluoride
19%
Molasses
19%
Solitonic Vortex
19%
Non-destructive Imaging
19%
Ultracold Fermions
19%
BCS-BEC Crossover
19%
Mott Insulator
19%
Quantum Simulation
19%
Diagrammatic Monte Carlo
19%
Universal Thermodynamics
19%
Lambda Transitions
19%
Strongly Interacting Fermi Gases
19%
Many-body Theory
19%
Scalable Quantum Computing
19%
Spin Injection
19%
Ultracold Molecules
19%
Fermi Superfluid
19%
Spatial Charge
19%
External Confinement
19%
Tunnel Interaction
19%
Characteristic State
19%
Spin Transport
19%
K-40
19%
Computer-generated Holography
19%
Dense Samples
12%
Strong Interaction
9%
Ultracold
9%
Tunneling
9%
Spin Diffusion
9%
Majorana Edge States
9%
Superfluid Transition
9%
Unitary Gases
9%
Crossover Theory
9%
Transverse Compression
9%
High-yield Production
9%
Direct Loading
9%
Charge Transport
9%
Zeeman Slower
9%
Fermi-Hubbard Model
9%
Body Loss
9%
Hyperfine States
9%
Independent Probes
9%
Background-free Detection
9%
Transport Properties
9%
Narrow Canal
9%
Bardeen-cooper-schrieffer
9%
Charge Diffusion
9%
Strongly Interacting Fermions
9%
Solitary Waves
9%
Matter Waves
9%
Local Compressibility
9%
Gas Collection
9%
Charge Conduction
9%
Strongly Correlated Materials
9%
Superexchange
9%
Heat Conduction
9%
Imaging Process
9%
Quantum Limit
9%
Fermionic
9%
Hubbard Model
9%
Two-photon Decay
9%
Complex Interplay
9%
Nondestructive Detection
9%
Cycling Property
9%
Superfluid Fermi Gas
6%
Precessional Motion
6%
Superfluid Hydrodynamics
6%
Spin Diode
6%
Ultracold Chemistry
6%
Quantum Degeneracy
6%
Degenerate Matter
6%
Topological Superfluidity
6%
Spectral Engineering
6%
Tensor Interaction
6%