Engineering & Materials Science
X ray lasers
100%
Proteins
98%
Free electron lasers
84%
Electrons
79%
Diffraction
61%
Molecules
59%
Crystals
53%
Crystallography
51%
X rays
46%
Electron energy loss spectroscopy
46%
Imaging techniques
43%
Diffraction patterns
35%
DNA
29%
Nanocrystals
29%
Radiation damage
28%
Scattering
28%
Viruses
26%
Atoms
25%
Microcrystals
20%
Electron diffraction
18%
Spectroscopy
18%
Ligands
18%
Temperature
17%
Light sources
17%
Membranes
16%
Oxidation-Reduction
16%
Free energy
16%
Hydrogen bonds
16%
Molecular dynamics
15%
Silicon
14%
Electron microscopes
14%
Electron beams
14%
Enzymes
14%
Electron microscopy
14%
X ray diffraction
13%
Crystallization
13%
Electrostatics
13%
Laser pulses
13%
Liquids
12%
Charge transfer
12%
Cyanobacteria
12%
Experiments
12%
Water
12%
Peptides
12%
Solvation
11%
Scanning
11%
Atomic force microscopy
11%
Crystalline materials
10%
Microanalysis
10%
Spin polarization
10%
Polarization
10%
Electronic structure
10%
Reflection high energy electron diffraction
10%
Carrier concentration
10%
Synchrotrons
10%
Pulsed lasers
10%
Hydration
10%
Phonons
9%
Computer simulation
9%
Electron scattering
9%
Multiple scattering
9%
Energy dissipation
9%
Femtosecond lasers
9%
Nanoparticles
9%
Graphene
8%
Aerosols
8%
Glass
8%
Ionization
8%
Fused silica
8%
Chromophores
8%
Electrodes
8%
Chlorophyll
7%
Transmission electron microscopy
7%
Thermodynamics
7%
Peptide Nucleic Acids
7%
Fullerenes
7%
Inelastic scattering
7%
Nanostructures
7%
Aberrations
7%
Nucleotides
7%
Microfluidics
7%
Microscopes
6%
Nanopores
6%
Dielectric relaxation
6%
Relaxation
6%
Density functional theory
6%
Crystal structure
6%
Statistics
6%
Raman scattering
6%
Carbon
6%
Relaxation time
6%
Bacteria
6%
X ray crystallography
6%
Hot Temperature
6%
Powder Diffraction
6%
Gold
6%
Electric fields
6%
Ultrashort pulses
5%
Lasers
5%
Photons
5%
Physics & Astronomy
proteins
86%
free electron lasers
60%
x rays
50%
crystallography
48%
molecules
36%
diffraction
34%
crystals
33%
energy dissipation
31%
electron transfer
29%
electron energy
28%
spectroscopy
28%
water
28%
hydration
24%
electrons
24%
radiation damage
24%
scattering
22%
viruses
21%
nanocrystals
21%
diffraction patterns
21%
membranes
20%
liquids
19%
energy
19%
solutes
18%
deoxyribonucleic acid
18%
glass
18%
solvation
16%
electrostatics
16%
free energy
16%
simulation
15%
x ray lasers
15%
high resolution
14%
lasers
14%
electron beams
14%
polarization
13%
microcrystals
13%
pulses
13%
biology
13%
probes
13%
electron microscopy
13%
atoms
12%
electron microscopes
12%
nanoparticles
12%
delivery
11%
injectors
11%
retrieval
11%
excitation
11%
damage
11%
electronics
11%
molecular dynamics
11%
statistics
11%
electron diffraction
10%
projection
10%
dipoles
10%
crystallization
10%
interactions
10%
temperature
10%
light sources
10%
crossovers
10%
electric fields
9%
nucleons
9%
scanning
9%
silicon
9%
magnetic permeability
9%
ultrashort pulsed lasers
9%
coherent light
9%
relaxation time
9%
entropy
8%
spatial resolution
8%
baths
8%
microscopes
8%
thermodynamics
8%
shift
8%
cytochromes
8%
microanalysis
8%
deactivation
8%
phonons
8%
lysozyme
7%
recovery
7%
shot
7%
microscopy
7%
permittivity
7%
nucleotides
7%
reaction kinetics
7%
hydrogen bonds
7%
transmission electron microscopy
7%
enzymes
7%
electronic structure
7%
charge transfer
7%
Monte Carlo method
7%
Raman spectra
7%
nuclei
7%
rings
6%
x ray scattering
6%
nucleon potential
6%
holography
6%
electrodes
6%
activation
6%
quantum wells
6%
room temperature
6%
Chemical Compounds
Free Electron
81%
Protein
74%
Crystallography
60%
X-Ray
50%
Electron Particle
33%
Simulation
33%
Molecule
30%
Electron Transfer
25%
Nanocrystal
23%
Energy
22%
Molecular Dynamics
20%
Time
20%
Dielectric Material
20%
Polarization
20%
Reorganization Energy
19%
Liquid
18%
Electron Energy Loss Spectroscopy
18%
Force
17%
Dipole
16%
Tunneling
16%
Gibbs Free Energy
15%
Solute
15%
Surface
15%
Electron Beam
15%
Solvation
13%
Structure Factor
13%
Injector
13%
Flexibility
13%
Electric Field
13%
Jet
12%
Spectroscopy
12%
Crystallization
11%
Probe
11%
Reflection
11%
Atomic Force Microscopy
11%
Vitreous Silica
10%
Conductance
10%
Electron Spin
9%
Length
9%
Photosynthesis
9%
Aerosol
9%
Thermodynamics
9%
Entropy
9%
Statistical Ensemble
9%
Electron Diffraction
9%
Ambient Reaction Temperature
9%
Peptide
8%
Glass
8%
Dielectric Response
8%
Fibrin
8%
Dielectric Constant
8%
Protein Structure
8%
Mutation
8%
X-Ray Scattering
8%
Photon
8%
Fluctuation-Dissipation Theorem
7%
Dimension
7%
Chlorophyll
7%
X-Ray Diffraction
7%
Nanomaterial
7%
Strain
7%
Nucleotide
7%
Amorphous Material
7%
Hydrogen Bond
7%
Electron Microscopy
7%
Polarizability
7%
Electron Scattering
7%
Cubic Space Group
7%
Sampling
7%
Impedance Spectroscopy
6%
Dipole Moment
6%
Behavior as Electrode
6%
Charge Transfer
6%
Solvent
6%
Spin Polarization
6%
Electronic State
6%
Dielectric Relaxation
6%
Ligand
6%
Electron Density
6%
Reduction
6%
Dielectrophoresis
6%
Application
6%
Dose
6%
Molecular Cluster
6%
Nanoparticle
6%
Shape
6%
Polypeptide
5%
Correlation Function
5%
Stacking Fault Energy
5%
Phonon
5%
Macromolecule
5%
Error
5%
Environment
5%
Graphene
5%
Cytochrome
5%
Spin-Orbit Coupling
5%
Voltage
5%
Nanocage
5%
Semiconductor
5%
Torque
5%