C. K. Kumar scite author profile

C. K. Kumar

4Publications

85Citation Statements Received

39Citation Statements Given

How they've been cited

107

How they cite others

Affiliations

Johns Hopkins University, Howard University, Johns Hopkins University Applied Physics Laboratory

Publications

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Atmospheric remote sensing using a combined extinctive and refractive stellar occultation technique 1. Overview and proof‐of‐concept observations

et al. 2002

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[1] A new approach to optical remote sensing of the Earth's atmosphere using a combination of extinctive and refractive stellar occultation measurements is presented. In this combined method, spectrographic imagers are used to measure the wavelengthdependent atmospheric extinction of starlight while a co-aligned imager is used to measure the atmospheric refraction along the same line of sight. By simultaneously measuring both the refraction and extinction of the starlight, the composition-dependent extinction measurements can more accurately probe the Earth's lower atmosphere, where refraction effects are significant. The refraction measurements provide the bulk atmospheric properties and the actual light path through the atmosphere, both of which are necessary to correctly infer the total extinction in the refractive regime. The technique is demonstrated on a proof-of-concept basis using data from the Ultraviolet and Visible Imagers and Spectrographic Imagers (UVISI) on the Midcourse Space Experiment (MSX) satellite. These preliminary results show that the combined approach has the potential to be a powerful, self-calibrating method for remotely sensing the Earth's atmosphere in general and for the determination of ozone profiles in the stratosphere and upper troposphere in particular.

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Nitric oxide abundance in the mesosphere/lower thermosphere region: Roles of solar soft X rays, suprathermal N(⁴S) atoms, and vertical transport

Swaminathan¹,

Strobel²,

Kupperman³

et al. 1998

J. Geophys. Res.

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Variation of Emission-Line Strengths across M31

Rubin¹,

Kumar²,

Ford³

1972

ApJ

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Stellar Motions Near the Nucleus of M31

Rubin¹,

Kent²,

Kumar³

1973

ApJ

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C. K. Kumar

Atmospheric remote sensing using a combined extinctive and refractive stellar occultation technique 1. Overview and proof‐of‐concept observations

Nitric oxide abundance in the mesosphere/lower thermosphere region: Roles of solar soft X rays, suprathermal N(⁴S) atoms, and vertical transport

Variation of Emission-Line Strengths across M31

Stellar Motions Near the Nucleus of M31

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About

C. K. Kumar

Atmospheric remote sensing using a combined extinctive and refractive stellar occultation technique 1. Overview and proof‐of‐concept observations

Nitric oxide abundance in the mesosphere/lower thermosphere region: Roles of solar soft X rays, suprathermal N(4S) atoms, and vertical transport

Variation of Emission-Line Strengths across M31

Stellar Motions Near the Nucleus of M31

Contact Info

Product

Resources

About

Nitric oxide abundance in the mesosphere/lower thermosphere region: Roles of solar soft X rays, suprathermal N(⁴S) atoms, and vertical transport