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Velocity dispersion due to anelasticity; implications for seismology and mantle composition (1976)

H.-P. Liu ; D. L. Anderson ; H. Kanamori

In: Geophys. J. R. astr. Soc., L'wiw, Inst. f. Theoret. Geodäsie, vol. 47, no. 4, pp. 41-58, pp. B01408, (ISSN: 1340-4202)

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Publication Date: 1976

Keywords: Dispersion ; Inelastic ; Seismology ; earth mantle ; GJRaS ; FROTH ; (abstract)

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BIBLIOGRAPHY SEISMOLOGY

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Finite-fault site-specific acceleration time histories that include nonlinear soil response (2003)

R. J. Archuleta ; P. Liu ; J. H. Steidl ; [et al.]

In: Physics of the Earth and Planetary Interiors, Amsterdam, Elsevier Scientific Publishing Company, vol. 137, no. 1-4, pp. 153-181, pp. 1390

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Publication Date: 2003

Keywords: Strong motions ; Seismology ; Site amplification ; Non-linear effects ; Peak ground acceleration ; PEPI

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BIBLIOGRAPHY SEISMOLOGY

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3

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160-190 GHz Monolithic Low Noise Amplifiers (1998)

Chen, Y. C. ; Liu, P. H. ; Lai, R. ; [et al.]

In: CASI

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Publication Date: 2013-08-31

Description: This paper presents the results of two 160-190 GHz monolithic low noise amplifiers (LNAs) fabricated with 0.07-microns pseudomorphic (PM) InAlAs/InGaAs/InP HEMT technology using a reactive ion etch (RIE) via hole process. A peak small signal gain of 9 dB was measured at 188 GHz for the first LNA with a 3-dB bandwidth from 164 to 192 GHz while the second LNA has achieved over 6-dB gain from 142 to 180 GHz. The same design (second LNA) was also fabricated with 0.08-micron gate and a wet etch process, showing a small signal gain of 6 dB with noise figure 6 dB. All the measurement results were obtained via on-wafer probing. The LNA noise measurement at 170 GHz is also the first attempt at this frequency.

Keywords: Electronics and Electrical Engineering

Format: application/pdf

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Downscaling a Global Climate Model to Simulate Climate Change Impacts on U.S. Regional and Urban Air Quality (2013)

Trail, M. ; Nenes, A. ; Tsigaridis, K. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: Climate change can exacerbate future regional air pollution events by making conditions more favorable to form high levels of ozone. In this study, we use spectral nudging with WRF to downscale NASA earth system GISS modelE2 results during the years 2006 to 2010 and 2048 to 2052 over the continental United States in order to compare the resulting meteorological fields from the air quality perspective during the four seasons of five-year historic and future climatological periods. GISS results are used as initial and boundary conditions by the WRF RCM to produce hourly meteorological fields. The downscaling technique and choice of physics parameterizations used are evaluated by comparing them with in situ observations. This study investigates changes of similar regional climate conditions down to a 12km by 12km resolution, as well as the effect of evolving climate conditions on the air quality at major U.S. cities. The high resolution simulations produce somewhat different results than the coarse resolution simulations in some regions. Also, through the analysis of the meteorological variables that most strongly influence air quality, we find consistent changes in regional climate that would enhance ozone levels in four regions of the U.S. during fall (Western U.S., Texas, Northeastern, and Southeastern U.S), one region during summer (Texas), and one region where changes potentially would lead to better air quality during spring (Northeast). We also find that daily peak temperatures tend to increase in most major cities in the U.S. which would increase the risk of health problems associated with heat stress. Future work will address a more comprehensive assessment of emissions and chemistry involved in the formation and removal of air pollutants.

Keywords: Meteorology and Climatology

Type: GSFC-E-DAA-TN8471 , Geoscientific Model Development DIscussions; 6; 2517-2549

Format: application/pdf

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Superbroadening in H2O and D2O by self-focused picosecond pulses from a YAlG:Nd laser (1977)

Bloembergen, N. ; Liu, P. ; Smith, W. L.

In: Other Sources

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Publication Date: 2019-06-27

Description: The dielectric-breakdown intensity threshold, the critical power for self-focusing, and the power threshold for the production of spectral superbroadening have been measured in H2O and D2O. For bandwidth-limited pulses of 30 psec duration at 1.06 microns and of 21 psec duration at 0.53 micron, the superbroadening in water always required power levels sufficient for catastrophic self-focusing and intensities equal to the electric breakdown threshold.

Keywords: LASERS AND MASERS

Type: Physical Review A - General Physics; vol. 15

Format: text

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Demonstration of a Sub-Millimeter Wave Integrated Circuit (S-MMIC) using InP HEMT with a 35-nm Gate (2006)

Din, S. ; Uyeda, J. ; Samoska, Lorene A. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-13

Description: In this paper, we present two single stage MMIC amplifiers with the first demonstrating a measured S21 gain of 3-dB at 280-GHz and the second demonstrating 2.5-dB gain at 300- GHz, which is the threshold of the sub-millimeter wave regime. The high-frequency operation is enabled by a high-speed InP HEMT with a 35-nm gate. This is the first demonstrated S21 gain at sub-millimeter wave frequencies in a MMIC.

Keywords: Electronics and Electrical Engineering

Type: IEEE Compound Semiconductor Integrated Circuits (CSIC) Symposium; Nov 12, 2006; San Antonio, TX; United States

Format: text

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First On-Wafer Power Characterization of MMIC Amplifiers at Sub-Millimeter Wave Frequencies (2008)

Gaier, T. ; Yoshida, W. ; Uyeda, J. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-13

Description: Recent developments in semiconductor technology have enabled advanced submillimeter wave (300 GHz) transistors and circuits. These new high speed components have required new test methods to be developed for characterizing performance, and to provide data for device modeling to improve designs. Current efforts in progressing high frequency testing have resulted in on-wafer-parameter measurements up to approximately 340 GHz and swept frequency vector network analyzer waveguide measurements to 508 GHz. On-wafer noise figure measurements in the 270-340 GHz band have been demonstrated. In this letter we report on on-wafer power measurements at 330 GHz of a three stage amplifier that resulted in a maximum measured output power of 1.78mW and maximum gain of 7.1 dB. The method utilized demonstrates the extension of traditional power measurement techniques to submillimeter wave frequencies, and is suitable for automated testing without packaging for production screening of submillimeter wave circuits.

Keywords: Electronics and Electrical Engineering

Type: IEEE Microwave and Wireless Components Letters, Vol. 18, No. 6, June 2008 (ISSN 1531-1309); 18; 6; 419-421

Format: text

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A Monolithic W-Band Three-Stage LNA Using 0.1 Micron InAlAs/InGaAs/InP HEMT Technology (1993)

Wang, H. ; Chow, P. D. ; Tan, K. L. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-10

Description: A monolithic W-band three-stage Low Noise Amplifiers (LNA) based on 0.1 um pseudomorphic InAlAs/InGaAs/InP (High Electron Mobility Transistors (HEMTs) has been developed. this LNA demonstrated a noise figure of 4.3 dB and an associated small signal gain of 19 dB at 100 GHz with a low dc power consumption of 20 mW. This is the best reported monolithic W-band LNA performance using InP-based HEMT technology and demonstrates the potential of InP HEMT technology for higher millimeter-wave applications.

Keywords: Communications and Radar

Type: IEEE MTT-S Digest; 519-522

Format: text

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Demonstration of a Submillimeter-Wave HEMT Oscillator Module at 330 GHz (2010)

Lai, Richard ; Deal, W. R. ; Pukala, David ; [et al.]

In: CASI

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Publication Date: 2019-07-12

Description: In this work, radial transitions have been successfully mated with a HEMT-based MMIC (high-electron-mobility-transistor-based monolithic microwave integrated circuit) oscillator circuit. The chip has been assembled into a WR2.2 waveguide module for the basic implementation with radial E-plane probe transitions to convert the waveguide mode to the MMIC coplanar waveguide mode. The E-plane transitions have been directly integrated onto the InP substrate to couple the submillimeter-wave energy directly to the waveguides, thus avoiding wire-bonds in the RF path. The oscillator demonstrates a measured 1.7 percent DC-RF efficiency at the module level. The oscillator chip uses 35-nm-gate-length HEMT devices, which enable the high frequency of oscillation, creating the first demonstration of a packaged waveguide oscillator that operates over 300 GHz and is based on InP HEMT technology. The oscillator chip is extremely compact, with dimensions of only 1.085 x 320 sq mm for a total die size of 0.35 sq mm. This fully integrated, waveguide oscillator module, with an output power of 0.27 mW at 330 GHz, can provide low-mass, low DC-power-consumption alternatives to existing local oscillator schemes, which require high DC power consumption and large mass. This oscillator module can be easily integrated with mixers, multipliers, and amplifiers for building high-frequency transmit and receive systems at submillimeter wave frequencies. Because it requires only a DC bias to enable submillimeter wave output power, it is a simple and reliable technique for generating power at these frequencies. Future work will be directed to further improving the applicability of HEMT transistors to submillimeter wave and terahertz applications. Commercial applications include submillimeter-wave imaging systems for hidden weapons detection, airport security, homeland security, and portable low-mass, low-power imaging systems

Keywords: Man/System Technology and Life Support

Type: NPO-45736 , NASA Tech Briefs, June 2010; 9

Format: application/pdf

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Potential Impact of Land Use Change on Future Regional Climate in the Southeastern U.S.: Reforestation and Crop Land Conversion (2013)

Hu, Y. ; Tsimpidi, A. P. ; Tsigaridis, Konstantinos ; [et al.]

In: Other Sources

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Publication Date: 2019-07-13

Description: The impact of future land use and land cover changes (LULCC) on regional and global climate is one of the most challenging aspects of understanding anthropogenic climate change. We study the impacts of LULCC on regional climate in the southeastern U.S. by downscaling the NASA Goddard Institute for Space Studies global climate model E to the regional scale using a spectral nudging technique with the Weather Research and Forecasting Model. Climate-relevant meteorological fields are compared for two southeastern U.S. LULCC scenarios to the current land use/cover for four seasons of the year 2050. In this work it is shown that reforestation of cropland in the southeastern U.S. tends to warm surface air by up to 0.5 K, while replacing forested land with cropland tends to cool the surface air by 0.5 K. Processes leading to this response are investigated and sensitivity analyses conducted. The sensitivity analysis shows that results are most sensitive to changes in albedo and the stomatal resistance. Evaporative cooling of croplands also plays an important role in regional climate. Implications of LULCC on air quality are discussed. Summertime warming associated with reforestation of croplands could increase the production of some secondary pollutants, while a higher boundary layer will decrease pollutant concentrations; wintertime warming may decrease emissions from biomass burning from wood stoves

Keywords: Meteorology and Climatology

Type: GSFC-E-DAA-TN27095 , Journal of Geophysical Research: Atmospheres; 118; 20; 11,577-11,588

Format: text

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