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Resonant Raman Scattering or Resonance Fluorescence inI2Vapor? (1973)

Peters, R. L. St. ; Silverstein, S. D. ; Lapp, M. ; [et al.]

American Physical Society

In: Physical Review Letters. 1973; 30(6): 191-192. Published 1973 Feb 05. doi: 10.1103/physrevlett.30.191.

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Publication Date: 1973-02-05

Print ISSN: 0031-9007

Electronic ISSN: 1079-7114

Topics: Physics

Published by American Physical Society

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Absolute rotational Raman cross sections for N2, O2, and CO2 (1974)

Penney, C. M. ; Saint Peters, R. L. ; Lapp, M.

In: Other Sources

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Publication Date: 2011-08-16

Keywords: PHYSICS, ATOMIC, MOLECULAR, AND NUCLEAR

Type: Optical Society of America; vol. 64

Format: text

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3

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Study of resonance light scattering for remote optical probing (1973)

White, D. R. ; Morey, W. W. ; Penney, C. M. ; [et al.]

In: CASI

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Publication Date: 2019-06-27

Description: Enhanced scattering and fluorescence processes in the visible and UV were investigated which will enable improved remote measurements of gas properties. The theoretical relationship between scattering and fluorescence from an isolated molecule in the approach to resonance is examined through analysis of the time dependence of re-emitted light following excitation of pulsed incident light. Quantitative estimates are developed for the relative and absolute intensities of fluorescence and resonance scattering. New results are obtained for depolarization of scattering excited by light at wavelengths within a dissociative continuum. The experimental work was performed in two separate facilities. One of these utilizes argon and krypton lasers, single moded by a tilted etalon, and a 3/4 meter double monochromator. This facility was used to determine properties of the re-emission from NO2, I2 and O3 excited by visible light. The second facility involves a narrow-line dye laser, and a 3/4 meter single monochromator. The dye laser produces pulsed light with 5 nsec pulse duration and 0.005 nm spectral width.

Keywords: PHYSICS, GENERAL

Type: NASA-CR-132363 , SRD-73-125

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4

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SO2 Spectroscopy with A Tunable UV Laser (1973)

Lapp, M. ; Penney, C. M. ; Morey, W. W.

In: CASI

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Publication Date: 2019-07-19

Description: A portion of the fluorescence spectrum of SO2 has been studied using a narrow wavelength doubled dye laser as the exciting source. One purpose of this study is to evaluate the use of SO2 resonance re-emission as a probe of SO2 in the atmosphere. When the SO2 is excited by light at 300.2 nm, for example, a strong reemission peak is observed which is Stokes-shifted from the incident light wavelength by the usual Raman shift (the VI symmetric vibration frequency 1150.5/cm ). The intensity of this peak is sensitive to small changes (.01 nm) in the incident wavelength. Measurements of the N2 quenching and self quenching of this re-emission have been obtained. Preliminary analysis of this data indicates that the quenching is weak but not negligible. The dye laser in our system is pumped by a pulsed N2 laser. Tuning 'and spectral narrowing are accomplished using a telescope-echelle grating combination. In a high power configuration the resulting pulses have a spectral width of about 5 x 10(exp -3) nm and a time duration of about 6 nsec. The echelle grating is rotated by a digital stepping motor, such that each step shifts the wavelength by 6 x 10(exp -4) nm. In addition to the tunable, narrow wavelength uv source and spectral analysis of the consequent re-emission, the system also provides time resolution of the re-emitted light to 6 nsec resolution. This capability is being used to study the lifetime of low pressure S02 fluorescence at different wavelengths and pressures.

Keywords: Earth Resources and Remote Sensing; Meteorology and Climatology

Type: Fifth Conference on Laser Radar Studies of the Atmosphere, June 4-6, 1973, Hilton Inn, Williamsburg, Virginia: Conference Abstracts; 45

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Absolute intensity and polarization of rotational Raman scattering from N2, O2, and CO2 (1973)

St.peters, R. L. ; Penney, C. M. ; Lapp, M.

In: CASI

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Publication Date: 2019-06-27

Description: An experimental examination of the absolute intensity, polarization, and relative line intensities of rotational Raman scattering (RRS) from N2, O2, and CO2 is reported. The absolute scattering intensity for N2 is characterized by its differential cross section for backscattering of incident light at 647.1 nm, which is calculated from basic measured values. The ratio of the corresponding cross section for O2 to that for N2 is 2.50 plus or minus 5 percent. The intensity recent for N2, O2, and CO2 are shown to compare favorably to values calculated from recent measurements of the depolarization of Rayleigh scattering plus RRS. Measured depolarizations of various RRS lines agree to within a few percent with the theoretical value of 3/4. Detailed error analyses are presented for intensity and depolarization measurements. Finally, extensive RRS spectra at nominal gas temperatures of 23 C, 75 C, and 125 C are presented and shown to compare favorably to theoretical predictions.

Keywords: PHYSICS, ATOMIC, MOLECULAR, AND NUCLEAR

Type: NASA-CR-121091 , SRD-72-163

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Atmospheric Temperature from Raman Scattering (1973)

Lapp, M. ; Penney, C. M.

In: CASI

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Publication Date: 2019-07-13

Description: Raman scattering signatures are functions of the scattering-gas temperature, and are therefore of potential use for practical atmospheric temperature probes. The method described uses either ratios of pure rotational Raman scattering intensities for air utilizing various spectral bandpasses, or, alternatively, ratios of air-rotational to nitrogen-vibrational scattering intensities. Three aspects of work relating to the development of such probes are discussed in this presentation: (1) fundamental absolute Raman data, (2) construction of air spectra from these data, and (3) temperature-sensitivity of the signature. The fundamental data described are the absolute rotational and vibrational scattering cross sections. Recent measurements in this laboratory of rotational cross sections for N2, O2, and CO2 are emphasized, as are their use in predicting absolute magnitudes of Raman scattering signals. Next is described the computation of air rotational Raman spectra as a function of temperature calculated through use of the experimentally-measured cross sections. The spectra are based additively upon nitrogen and oxygen contributions, since pure rotational Raman scattering from water vapor is very weak. Finally, the sensitivity of the scattering intensity ratios to temperature is explored as a function of choice of spectral bandpass for the monitored rotational Raman scattering. Various compromises will be discussed which must be made in choosing bandpasses appropriate for specific purposes and experimental conditions.

Keywords: Optics

Type: Fifth Conference on Laser Radar Studies of the Atmosphere, June 4-6, 1973, Hilton Inn, Williamsburg, Virginia: Conference Abstracts; 47-48|Conference on Laser Radar Studies of the Atmosphere; Jun 04, 1973 - Jun 06, 1973; Williamsburg, VA; United States

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