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Your search keyword '"Miko, Laddawan"' showing total 19 results
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19 results on '"Miko, Laddawan"'

1. The Exoplanet Climate Infrared TElescope (EXCITE)

Author

Tucker, Gregory S, Nagler, Peter, Butler, Nathaniel, Kilpatrick, Brian, Korotkov, Andrei, Lewis, Nikole, Maxted, Pierre F. L, Miko, Laddawan, Netterfield, C. B, Pascale, Enzo, Patience, Jennifer, Scowen, Paul, Parmentier, Vivien, Waldmanni, Ingo, and Wen, Yiting

Subjects
Astronomy
Abstract

Although there are a large number of known exoplanets, there is little data on their global atmospheric properties.Phase-resolved spectroscopy of transiting planets - continuous spectroscopic observation of planets during their full orbits - probes varied depths and longitudes in the atmospheres thus measuring their three-dimensional thermal and chemical structure and contributing to our understanding of their global circulation. Planets with characteristics suitable for atmospheric characterization have orbits of several days, so phase curve observations are highly resource intensive, especially for shared use facilities. The Exoplanet Climate Infrared TElescope (EXCITE) is a balloon-borne near-infrared spectrometer designed to observe from 1 to 5 meters to perform phase-resolved spectroscopy of hot Jupiters. Flying from a long duration balloon (LDB) platform, EXCITE will have the stability to continuously stare at targets for days at a time and the sensitivity to produce data of the quality and quantity needed to signicantly advance our understanding of exoplanet atmospheres. We describe the EXCITE design and show results of analytic and numerical calculations of the instrument sensitivity. We show that an instrument like EXCITE will produce a wealth of quality data, both complementing and serving as a critical bridge between current and future space-based near infrared spectroscopic instruments.

Published
2018
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2. Snowballs in Euclid and WFIRST Detectors

Author

Cillis, Analia N, Cottingham, David A, Miko, Laddawan R, Jhabvala, Murzban D, Waczynski, Augustyn, Rossetti, Dino J, Turck, Kyle A, Hill, Robert J, Wen, Yiting, Foltz, Roger D, Cheung, Stephanie, Cho, Benjamin O, Hickey, Michael R, Delo, Gregory S, Feizi, Ali R, Hwang, Tsuwei, Kan, Emily, Kan, Eric, Landsman, Wayne B, Mah, Jonathan S, Meier, Lane A, and Merchant, Christopher A

Subjects
Astrophysics
Abstract

Snowballs are transient events observed in HgCdTe detectors with a sudden increase of charge in a few pixels. They appear between consecutive reads of the detector, after which the affected pixels return to their normal behavior. The origin of the snowballs is unknown, but it was speculated that they could be the result of alpha decay of naturally radioactive contaminants in the detectors, but a cosmic ray origin cannot be ruled out. Even though previous studies predicted a low rate of occurrence of these events, and consequently, a minimal impact on science, it is interesting to investigate the cause or causes that may generate snowballs and their impact in detectors designed for future missions. We searched for the presence of snowballs in the dark current data in Euclid and Wide Field Infrared Survey Telescope (WFIRST) detectors tested in the Detector Characterization Laboratory at Goddard Space Flight Center. Our investigation shows that for Euclid and WFIRST detectors, there are snowballs that appear only one time, and others that repeat in the same spatial localization. For Euclid detectors, there is a correlation between the snowballs that repeat and bad pixels in the operational masks (pixels that do not fulfill the requirements to pass spectroscopy noise, photometry noise, quantum efficiency, and/or linearity). The rate of occurrence for a snowball event is about 0.9 snowballs/hr. in Euclid detectors (for the ones that do not have associated bad pixels in the mask), and about 0.7 snowballs/hr. in PV3 Full Array Lot WFIRST detectors.

Published
2018

3. From BASE-ASIA toward 7-SEAS: A satellite-surface perspective of boreal spring biomass-burning aerosols and clouds in Southeast Asia

Author

Tsay, Si-Chee, Hsu, N. Christina, Lau, William K.-M., Li, Can, Gabriel, Philip M., Ji, Qiang, Holben, Brent N., Judd Welton, E., Nguyen, Anh X., Janjai, Serm, Lin, Neng-Huei, Reid, Jeffrey S., Boonjawat, Jariya, Howell, Steven G., Huebert, Barry J., Fu, Joshua S., Hansell, Richard A., Sayer, Andrew M., Gautam, Ritesh, Wang, Sheng-Hsiang, Goodloe, Colby S., Miko, Laddawan R., Shu, Peter K., Loftus, Adrian M., Huang, Jingfeng, Kim, Jin Young, Jeong, Myeong-Jae, and Pantina, Peter

Published
2013
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4. Detector Control and Data Acquisition for the Wide-Field Infrared Survey Telescope (WFIRST) with a Custom ASIC

Author

Smith, Brian S, Loose, Markus, Alkire, Greg, Joshi, Atul, Kelly, Daniel, Siskind, Eric, Rossetti, Dino, Mah, Jonathan, Cheng, Edward, Miko, Laddawan, Luppino, Gerard, Culver, Harry, Wollack, Edward, and Content, David

Subjects
Electronics And Electrical Engineering, Instrumentation And Photography
Abstract

The Wide-Field Infrared Survey Telescope (WFIRST) will have the largest near-IR focal plane ever flown by NASA, a total of 18 4K x 4K devices. The project has adopted a system-level approach to detector control and data acquisition where 1) control and processing intelligence is pushed into components closer to the detector to maximize signal integrity, 2) functions are performed at the highest allowable temperatures, and 3) the electronics are designed to ensure that the intrinsic detector noise is the limiting factor for system performance. For WFIRST, the detector arrays operate at 90 to 100 K, the detector control and data acquisition functions are performed by a custom ASIC at 150 to 180 K, and the main data processing electronics are at the ambient temperature of the spacecraft, notionally approx.300 K. The new ASIC is the main interface between the cryogenic detectors and the warm instrument electronics. Its single-chip design provides basic clocking for most types of hybrid detectors with CMOS ROICs. It includes a flexible but simple-to-program sequencer, with the option of microprocessor control for more elaborate readout schemes that may be data-dependent. All analog biases, digital clocks, and analog-to-digital conversion functions are incorporated and are connected to the nearby detectors with a short cable that can provide thermal isolation. The interface to the warm electronics is simple and robust through multiple LVDS channels. It also includes features that support parallel operation of multiple ASICs to control detectors that may have more capability or requirements than can be supported by a single chip.

Published
2016

6. Properties and characteristics of the WFIRST H4RG-10 detectors

Author

Mosby, Gregory, Rauscher, Bernard J., Bennett, Chris, Cheng, Edward . S., Cheung, Stephanie, Cillis, Analia, Content, David, Cottingham, Dave, Foltz, Roger, Gygax, John, Hill, Robert J., Kruk, Jeffrey W., Mah, Jon, Meier, Lane, Merchant, Chris, Miko, Laddawan, Piquette, Eric C., Waczynski, Augustyn, and Wen, Yiting

Subjects
Earth and Planetary Astrophysics (astro-ph.EP), Cosmology and Nongalactic Astrophysics (astro-ph.CO), Astrophysics::Instrumentation and Methods for Astrophysics, FOS: Physical sciences, Astrophysics::Cosmology and Extragalactic Astrophysics, Astrophysics - Instrumentation and Methods for Astrophysics, Instrumentation and Methods for Astrophysics (astro-ph.IM), Astrophysics::Galaxy Astrophysics, Astrophysics - Cosmology and Nongalactic Astrophysics, Astrophysics - Earth and Planetary Astrophysics
Abstract

The Wide-Field Infrared Survey Telescope (WFIRST) will answer fundamental questions about the evolution of dark energy over time and expand the catalog of known exoplanets into new regions of parameter space. Using a Hubble-sized mirror and 18 newly developed HgCdTe 4K x 4K photodiode arrays (H4RG-10), WFIRST will measure the positions and shapes of hundreds of millions of galaxies, the light curves of thousands of supernovae, and the microlensing signals of over a thousand exoplanets toward the bulge of the Galaxy. These measurements require unprecedented sensitivity and characterization of the Wide Field Instrument (WFI), particularly its detectors. The WFIRST project undertook an extensive detector development program to create focal plane arrays that meet these science requirements. These prototype detectors have been characterized and their performance demonstrated in a relevant space-like environment (thermal vacuum, vibration, acoustic, and radiation testing), advancing the H4RG-10's technology readiness level (TRL) to TRL-6. We present the performance characteristics of these TRL-6 demonstration devices., 47 pages, 19 figures manuscript submitted to JATIS

Published
2020

7. AlGaN Ultraviolet Detectors for Dual-Band UV Detection

Author

Miko, Laddawan, Franz, David, Stahle, Carl M, Yan, Feng, and Guan, Bing

Subjects
Instrumentation And Photography
Abstract

This innovation comprises technology that has the ability to measure at least two ultraviolet (UV) bands using one detector without relying on any external optical filters. This allows users to build a miniature UVA and UVB monitor, as well as to develop compact, multicolor imaging technologies for flame temperature sensing, air-quality control, and terrestrial/counter-camouflage/biosensing applications.

Published
2010

8. Near-infrared Single-photon-counting Detectors for Free-space Laser Receivers

Author

Krainak, Michael A, Sun, Xiaoli, Hasselbrack, William, Wu, Stewart, Waczynski, Augustyn, and Miko, Laddawan

Subjects
Lasers And Masers
Abstract

We compare several photon-counting detector technologies for use as near-infrared timeresolved laser receivers in science instrument, communication and navigation systems. The key technologies are InGaAs(P) photocathode hybrid photomultiplier tubes and InGaAs(P) and HgCdTe avalanche photodiodes. We discuss recent experimental results and application.

Published
2007

9. Bias Selectable Dual Band AlGaN Ultra-violet Detectors

Author

Yan, Feng, Miko, Laddawan, Franz, David, Guan, Bing, and Stahle, Carl M

Subjects
Electronics And Electrical Engineering
Abstract

Bias selectable dual band AlGaN ultra-violet (UV) detectors, which can separate UV-A and UV-B using one detector in the same pixel by bias switching, have been designed, fabricated and characterized. A two-terminal n-p-n photo-transistor-like structure was used. When a forward bias is applied between the top electrode and the bottom electrode, the detectors can successfully detect W-A and reject UV-B. Under reverse bias, they can detect UV-B and reject UV-A. The proof of concept design shows that it is feasible to fabricate high performance dual-band UV detectors based on the current AlGaN material growth and fabrication technologies.

Published
2007

10. NASA's Next Generation Sunphotometer for Ground-based Remote Sensing Applications

Author

Shu, Peter K, Miko, Laddawan, Bly, Vince T, Chiao, Meng P, Jones, Hollis H, and Kahle, Duncan M

Subjects
Instrumentation And Photography
Abstract

Atmospheric aerosol concentrations and their optical properties, in terms of which cause differential warming/cooling effects in the atmosphere and on the surface, constitute one of the largest sources of uncertainty in current assessments and predictions of global climatic change. This is especially true over the regions of bright-reflecting surface, such as desert and urban areas. Under the name of AERONET since the 90's, Cimel's sunphotometers have been deployed worldwide as the standard instrument for aerosol monitoring network, developed to support NASA, CNES, and NASDA's Earth satellite systems. PREDE's skyradiometers, as deployed in SKYNET, serve the similar role. One of the key ingredients for achieving accurate aerosol retrievals from satellite observations is comprehensive understanding of surface spectral BRF's (Bidirectional Reflectance Factors), defined as a ratio of radiance measurements reflected from a targeted surface and from a spectral-angular featureless referencing plate. Although the weather-resistant, automatic, sun/sky-scanning spectroradiometers enable Frequent measurements of atmospheric aerosol optical properties and precipitable water at remote sites, they are too slow for surface BRF measurements (20-25 seconds per 360 degree scan, in addition to filter wheel rotation time). We have designed a next generation sun photometer whose sensor head has no moving parts. A dedicated detector for each channel enables 12 simultaneous measurements ranging from the UV (380 nm) to shortwave-IR (2.13 micron) regions. The scan platform will be capable of traveling 360 degrees in about 6 seconds. This is sufficient to finish a BRDF scan every 30 degrees in azimuth and 15 degrees in elevation in less than 4 minutes. More details about this instrument will be presented, together with its applications to the aerosol and trace gas studies. The current plan for this instrument is to deploy during the EAST-AIRE (East Asian Study of Tropospheric Aerosols: an International Regional Experiment) and BASE-ASIA (Biomass-burning Aerosols in South East-Asia: Smoke Impact Assessment).

Published
2005

13. Stability of device responsivity in silicon photodiodes under cryogenic conditions.

Author

Glebov, Boris L., Waczynski, Augustyn, Jepsen, Kim S., and Miko, Laddawan R.

Subjects
RESPONSIVITY (Detectors), PHOTODIODES, CRYOGENICS, QUANTUM efficiency, NEAR infrared spectroscopy
Abstract

Long-term changes in the responsivity of unbiased silicon photodiodes were observed when operating at the temperature of 90 K. The change manifested as a monotonic increase in current output for a fixed optical power input. The current output has been observed to increase by 20% or more relative to room-temperature output. In all trials, the effect was fully reversed upon returning to room temperature. Analysis of spectrally resolved data showed that the effect is due to formation of a contaminant thin film, of as-yet-unknown composition. [ABSTRACT FROM AUTHOR]

Published
2018
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