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Raman instability in n-type piezoelectric semiconductors
P K Sen, N. Apte, S. Guha
School of Engineering & Physical Sciences
Research output
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Contribution to journal
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Article
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peer-review
14
Citations (Scopus)
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INIS
instability
100%
semiconductor materials
100%
piezoelectricity
100%
values
75%
amplitudes
75%
pumps
75%
growth
50%
crystals
50%
electric fields
50%
magnetostatics
50%
comparative evaluations
25%
phonons
25%
plasma
25%
carbon dioxide lasers
25%
dispersion relations
25%
electromagnetic waves
25%
irradiation
25%
scattering
25%
electron plasma waves
25%
Physics
Piezoelectricity
100%
Electric Fields
66%
Magnetostatic Field
66%
Carbon Dioxide Laser
33%
Electromagnetic Wave
33%
Phonon
33%
Coupled Mode
33%
Electron Plasma
33%
Electromagnetic Radiation
33%
Plasma Wave
33%
Engineering
Piezoelectric
100%
Electric Field
66%
Magnetostatic Field
66%
Dispersion Relation
33%
Brillouin Zone
33%
Field Amplitude
33%
Pump Wave
33%
Optical Phonon
33%
Material Science
Piezoelectricity
100%
Carbon Dioxide
33%