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Evaluating stability of a Raman spectrometer for long-time experiments
Ankit Raj
,
Henryk Arnold Witek
*
, Hiro o. Hamaguchi
*
Corresponding author for this work
Center for Emergent Functional Matter Science
Department of Applied Chemistry
Research output
:
Contribution to journal
›
Article
›
peer-review
7
Scopus citations
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Keyphrases
Raman Spectrometer
100%
Band Position
100%
Ambient Parameters
66%
Emission Spectrum
33%
Wave number
33%
Refractive Index
33%
Laser Power
33%
Spectroscopic Measurement
33%
Intensity Variation
33%
Raman Spectroscopy
33%
Power Fluctuation
33%
Raman Spectra
33%
Pressure-temperature
33%
Laser Cavity
33%
Benzene
33%
Raman Intensity
33%
Band Intensity
33%
Ambient Pressure
33%
Air Condition
33%
Neon
33%
Temperature-humidity Index
33%
Air Refractive Index
33%
Synchronized Measurements
33%
Time-dependent Fluctuations
33%
Chemistry
Refractive Index
100%
stability
100%
Wavenumber
50%
Emission Spectra
50%
Spectroscopy
50%
Raman Intensity
50%
Benzene
50%
Raman Spectra
50%
Engineering
Refractive Index
100%
Refractivity
100%
Power Fluctuation
50%
Laser Power
50%
Emission Spectra
50%
Ambient Pressure
50%
Raman Spectra
50%
Laser Cavity
50%
Earth and Planetary Sciences
Spectrometer
100%
Refractivity
66%
Emission Spectra
33%
Laser Cavity
33%
Raman Spectra
33%
Benzene
33%