Engineering
External Cavity
75%
Emitting Laser
75%
Cavity Surface
71%
Quantum Well
70%
Gallium Arsenide
34%
Output Power
33%
Nonequilibrium
25%
Optical Gain
17%
Carrier Density
16%
Experimental Result
16%
Microscopic Theory
15%
Bloch Equation
13%
Saturable Absorber
12%
Gain Spectrum
12%
Material System
11%
Body Model
11%
Band Structure
11%
Peak Power
11%
Continuous Wave
11%
Efficiency Droop
11%
Spontaneous Emission
9%
Bragg Cell
9%
Material Gain
9%
Optical Carrier
9%
Indium Gallium Arsenide
8%
Auger Recombination
8%
Maxwell's Equation
8%
Gain Medium
7%
Defects
7%
Heterostructures
7%
Good Agreement
7%
Closed Loop
6%
Broadening
6%
Monolayer
6%
Active Region
6%
Emission Wavelength
6%
Electric Field
6%
Semiconductor Material
6%
Emitting Device
6%
Pump Power
5%
Pulse Duration
5%
Repetition Rate
5%
Internals
5%
Nitride Semiconductor
5%
Dilute Nitride
5%
Matrix Element
5%
Harmonic Generation
5%
Fabry Perot
5%
Frequency Operation
5%
Electrical Injection
5%
Physics
Semiconductor Laser
100%
Quantum Wells
86%
Surface Emitting Laser
75%
Optical Properties
23%
Quantum Well Lasers
22%
Photoluminescence
21%
Spontaneous Emission
19%
Continuous Radiation
17%
Many Body Theory
16%
Maxwell Equation
15%
Linewidth
15%
Ultrashort Pulse
13%
Room Temperature
11%
High Harmonic Generation
11%
Second Harmonic Generation
11%
Piezoelectricity
10%
Lasing
10%
Phonon
10%
Energy Gaps (Solid State)
10%
Harmonics
9%
Temperature Dependence
8%
Nitride
8%
Electric Fields
8%
Superlattice
7%
Holes (Electron Deficiencies)
7%
Density Functional Theory
7%
First-Principles
7%
Density Dependence
7%
Laser Modes
6%
Physics
6%
Laser Material
6%
Multiple Quantum Well
6%
Transition Metal Dichalcogenide
5%
Hole Burning
5%
Laser Source
5%
Keyphrases
Vertical-cavity Surface-emitting Laser (VCSEL)
49%
Semiconductor Lasers
37%
High Power
25%
Optically Pumped Semiconductor Lasers
17%
Carrier Loss
15%
Optical Properties
15%
Power Output
15%
Quantum Well
14%
Semiconductors
13%
Mode-locking
12%
Dilute Nitride Semiconductors
10%
External Cavity Semiconductor Laser
10%
Closed-loop Design
10%
Second Harmonic Generation
10%
Intra-cavity
10%
AuGe
9%
Many-body Models
9%
Optical Gain
9%
Gallium Arsenide
9%
InGaN Quantum Well Laser
8%
Structural Dependence
8%
Yellow Emission
8%
Sodium Guidestar
8%
Dilute Nitrides
7%
Type-II Transition
7%
High-order Harmonic Generation
7%
Spontaneous Emission
7%
GaInNAs
7%
Quantum Design
7%
Gain Spectrum
7%
Laser Materials
7%
Gain Loss
7%
Continuous Wave
7%
Lasing
6%
Optical Carrier
6%
Semiconductor Quantum Dots
6%
Laser Gain
6%
Nitride Heterostructure
6%
I-type
6%
Comparison Experiment
6%
Closed-loop
6%
Power Vertical
6%
Microscopic Model
6%
Quantum Dot Lasers
6%
Photoluminescence
6%
Dephasing
6%
Semiconductor Bloch Equations
6%
Density Dependence
6%
Gain Materials
6%
Type-II Quantum Well
6%