Your search keyword '"Murzban D. Jhabvala"' showing total 5 results

1. Compact Thermal Imager (CTI) for Atmospheric Remote Sensing

Author

Dong L Wu, Donald E Jennings, Kwong-kit Choi, Murzban D Jhabvala, James A Limbacher, Thomas Flatley, Kyu-myong Kim, Anh T. La, Ross J. Salawitch 4, Luke D Oman, Jie Gong, Thomas R. Holmes, Douglas C Morton, Tilak Hewagama, and Robert J Swap

Subjects

Geosciences (General)

Abstract

The demonstration of a newly developed compact thermal imager (CTI) on the International Space Station (ISS) has provided not only a technology advancement but a rich high-resolution dataset on global clouds, atmospheric and land emissions. This study showed that the free-running CTI instrument could be calibrated to produce scientifically useful radiance imagery of the atmosphere, clouds, and surfaces with a vertical resolution of ~460 m at limb and a horizontal resolution of ~80 m at nadir. The new detector demonstrated an excellent sensitivity to detect the weak limb radiance perturbations modulated by small-scale atmospheric gravity waves. The CTI’s high-resolution imaging was used to infer vertical cloud temperature profiles from a side-viewing geometry. For nadir imaging, the combined high-resolution and high-sensitivity capabilities allowed the CTI to better separate cloud and surface emissions, including those in the planetary boundary layer (PBL) that had small contrast against the background surface. Finally, based on the ISS’s orbit, the stable detector performance and robust calibration algorithm produced valuable diurnal observations of cloud and surface emissions with respect to solar local time during May–October 2019, when the CTI had nearly continuous operation.

Published

2021

2. HAWC+, the Far-Infrared Camera and Polarimeter for SOFIA

Author

Timothy S. Rennick, Leslie W. Looney, Carolyn G. Volpert, Timothy M. Miller, Jordan A. Guerra, Mandana Amiri, Dominic J. Benford, Stephen J. Heimsath, Louise A. Hamlin, Sean Lin, Kent D. Irwin, Gene C. Hilton, Ian Gatley, Edward J. Wollack, Peter Shirron, Stuart Banks, John E. Vaillancourt, Mark Halpern, Joseph M. Michail, Matthew I. Hollister, Javad Siah, Leroy Sparr, Giles Novak, Jessie L. Dotson, R. F. Loewenstein, Marcus Runyan, Michael Amato, Carl F. Hostetter, Marc Berthoud, Dale Sandford, Brant Cook, Arlin E. Bartels, Stephen F. Maher, C. Jesse Wirth, Nicholas Chapman, Enrique Lopez-Rodriguez, Joel H. Kastner, Armen S. Toorian, Robert Spotz, Christopher J. Hansen, Rhodri Evans, Christine A. Jhabvala, David T. Chuss, Shu I. Wang, Eric Sandberg, Alfonso Hermida, Troy Ames, Sean Casey, Rebecca J. Derro, S. Harvey Moseley, Elmer Sharp, Ryan T. Hamilton, Harvey Rhody, Ernest D. Buchanan, George M. Voellmer, Shannon Towey, Attila Kovács, Rick Shafer, Robert F. Silverberg, Fabio P. Santos, Murzban D. Jhabvala, Johannes Staguhn, Robert J. Pernic, Doyal A. Harper, Robert A. Hirsch, J. G. Tuttle, C. Darren Dowell, and D. J. Fixsen

Subjects

Far infrared, Stratospheric Observatory for Infrared Astronomy, Instrumentation, 0103 physical sciences, Astrophysics::Instrumentation and Methods for Astrophysics, Environmental science, Astronomy and Astrophysics, Polarimeter, 010306 general physics, 010303 astronomy & astrophysics, 01 natural sciences, Remote sensing

Abstract

High-resolution Airborne Wide-band Camera (HAWC[Formula: see text]) is the facility far-infrared imager and polarimeter for SOFIA, NASA’s Stratospheric Observatory for Infrared Astronomy. It is designed to cover the portion of the infrared spectrum that is completely inaccessible to ground-based observatories and which is essential for studies of astronomical sources with temperatures between tens and hundreds of degrees Kelvin. Its ability to make polarimetric measurements of aligned dust grains provides a unique new capability for studying interstellar magnetic fields. HAWC[Formula: see text] began commissioning flights in April 2016 and was accepted as a facility instrument in early 2018. In this paper, we describe the instrument, its operational procedures, and its performance on the observatory.

Published

2018

3. Visual aid for the hearing impaired

Author

Hung C. Lin and Murzban D. Jhabvala

Subjects

Acoustics and Ultrasonics, business.industry, Microphone, Computer science, Acoustics, Electrical engineering, Analog-to-digital converter, Signal, law.invention, Loudness, Arts and Humanities (miscellaneous), law, Logic gate, Digital comparator, business, Encoder, Communication channel

Abstract

A multi-channel electronic visual aid device which is able to signal to the user whether sound is coming from the left or right, front or back, or both. For the plurality of channels, which may operate in pairs, the sound is picked up by a respective microphone and amplified and rectified into a DC voltage. The DC voltage is next fed to an analog to digital converter and then to a digital encoder. The binary code from the encoder is coupled into a logic circuit where the binary code is decoded to provide a plurality of output levels which are used to drive an indicator which, in turn, provides a visual indication of the sound level received. The binary codes for each pair of channels are also fed into a digital comparator. The output of the comparator is used to enable the logic circuits of the two channels such that if, for example, the signal coming from the right is louder than that coming from the left, the output of the logic unit of the right channel will be enabled and the corresponding indicator activated, indicating the sound source on the right. An indication of the loudness is also provided. One embodiment of the invention may be carried by the hearing impaired or deaf, as a system, for example, which is embedded into eye glasses or a cap. Another embodiment of the invention may be integrated with a vehicle to give a hearing impaired or deaf driver a warning, with a directional indication, that an emergency vehicle is in the vicinity. In this second embodiment, the emergency vehicle transmits an RF signal which would be used as an enabling signal for the visual aid device to avoid false alarms from traffic and other sound sources in the vicinity of the dirver's vehicle.

Published

1992

4. Monolithic Lead Salt-Silicon Focal Plane Development

Author

John R. Barrett, Murzban D. Jhabvala, and Francis S. Maldari

Subjects

Fabrication, Materials science, Silicon, business.industry, chemistry.chemical_element, Chemical vapor deposition, Integrated circuit, PMOS logic, law.invention, chemistry, law, MOSFET, Optoelectronics, Wafer, Field-effect transistor, business

Abstract

This paper is a summary of work done in the development of monolithic lead salt-silicon infrared focal plane technology. The photoconductive detector materials, PbS and PbSe are chemically deposited onto premetallized silicon MOSFET integrated circuit wafers. A variety of structures based on an implanted PMOS process were fabricated and evaluated. Operational results of an eight-element PbS array multiplexed on-chip are presented along with radiometric measurements on other integrated PbS-silicon MOSFET structures. PbS imagery is shown using one element of a 20-element array integrated on-chip.

Published

1983

5. Lead Sulfide-Silicon MOSFET Infrared Focal Plane Development

Author

Murzban D. Jhabvala and John R. Barrett

Subjects

Materials science, business.industry, Detector, Hardware_PERFORMANCEANDRELIABILITY, Integrated circuit, PMOS logic, law.invention, chemistry.chemical_compound, CMOS, chemistry, law, MOSFET, Hardware_INTEGRATEDCIRCUITS, Optoelectronics, Field-effect transistor, Lead sulfide, Infrared detector, business, Hardware_LOGICDESIGN

Abstract

A process for directly integrating photoconductive lead sulfide (PbS) infrared detector material with silicon MOS integrated circuits has been developed primarily for application in long (greater than 10,000 detector elements) linear arrays for pushbroom scanning applications. The processing technology is based on the conventional PMOS and CMOS technologies with a variation in the metallization. Results and measurements on a fully integrated eight-element multiplexer are shown.

Published

1983