Princeton University

  • 08544 Princeton

    United States

Fingerprint Dive into the research topics where Princeton University is active. These topic labels come from the works of this organization's members. Together they form a unique fingerprint.

Physics & Astronomy

General

collisions
decay
detectors
energy
simulation
flames
cross sections
interactions
lasers
predictions
asymmetry
confidence
microwaves
kinetics
scaling
scalars
fluids
radii
electronics
insulators
estimates
strings
pulses
cells
geometry
optimal control
shock
sensors
probes
configurations
anisotropy
profiles
operators
metals
crystals
radiation

Aerospace Sciences

galaxies
planets
magnetic fields
stars
quasars
extrasolar planets
telescopes
turbulence
spectroscopy
dark matter
cosmology
orbits
cavities
Jupiter (planet)
universe

Engineering

quantum cascade lasers
ignition
scattering
excitation
signatures
heating
x rays
hydrodynamics

Physics

luminosity
quarks
electrons
leptons
bosons
protons
temperature
neutrinos
Higgs bosons
center of mass
mesons
physics
photons
muons
ions
oscillations
transverse momentum
wavelengths
dust
polarization
fermions
pair production
photonics
ground state
momentum
quantum wells
atoms
orbitals
perturbation

Chemistry and Materials

liquids
gases
water
air
molecules
silicon
oxygen
polymers
chemistry
hydrogen

Mathematical and Computer Sciences

sensitivity
symmetry

Engineering & Materials Science

Temperature
Experiments
Quantum cascade lasers
Electrons
Communication
Code division multiple access
Plasmas
Data storage equipment
Costs
Kinetics
Sensors
Detectors
Lasers
Ignition
Liquids
Water
Fluids
Air
Processing
Geometry
Substrates
Polymers
Networks (circuits)
Hardware
Molecules
Oxidation
Hydrogen
Silicon
Metals
Gases
Imaging techniques
Magnetic fields
Oxygen
Wavelength
Polynomials
Proteins
Ions
Monitoring
Photonics
Throughput
Density functional theory
Thin films
Feedback
Carbon
Spectroscopy
Atoms
Decomposition
Transmitters
Oxides
Sampling
Antennas
Electronic structure
Crystals
Entropy
Bandwidth
Gels
Physics
Turbulence
Wireless networks
Semiconductor materials
Multiuser detection
Infrared radiation
Doping (additives)
Computer simulation
Statistics
Heterojunctions
Methane
Block copolymers
Catalysts
Electrodes
Scattering
Modulation
Adsorption
Data structures
Nanoparticles
Topology
Boundary layers
Reynolds number
Fluxes
Scheduling
Monolayers
Semiconductor quantum wells
Internet
Protons
Network protocols
Decoding
Momentum
Fusion reactions
Ground state
Chemical analysis
Tuning
Defects
Superconducting materials
Telescopes
Fabrication
Genes
Learning systems
Molecular dynamics
Mean square error
Photons

Chemical Compounds

Temperature
Electrons
Water
Polymers
Molecules
Metals
Kinetics
Carbon Monoxide
Genes
Experiments
Hydrogen
Carbon
Gases
Oxygen
Proteins
Liquids
Ions
Silicon
Quantum cascade lasers
Substrates
Oxidation
Atoms
Density functional theory
Oxides
Ignition
Lasers
Graphite
Electronic structure
Methane
Air
Fluids
Magnetic fields
Ligands
Spectroscopy
Iron
Nanoparticles
Molecular dynamics
Crystals
Imaging techniques
Adsorption
Fluxes
Block copolymers
Thin films
Plasmas
Chemical activation
Catalysts
Ground state
Scattering
Chemical analysis
Monolayers
Gels
Doping (additives)
Alkenes
Crystallization
Semiconductor materials
Catalysis
Thermodynamics
Superconducting materials
Wavelength
Charge transfer
Electrodes
Nitrogen
Geometry
Heterojunctions
Superconductivity
Cells
Hamiltonians
Defects
Bacteria
Membranes
Isotopes
Semiconductor quantum wells
Single crystals
Crystal structure
Phase transitions
Nickel
Photonics
Escherichia coli
Infrared radiation
Hydrocarbons
Sensors
Transition metals
Computer simulation
Derivatives
Photoelectron spectroscopy
Crystalline materials
Telescopes
Cations
Energy gap
Ice
Wave functions
DNA
Physics
Polarization
Specific heat
Viruses
Processing
Glass
Substitution reactions
Surface-Active Agents