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GaAs ManTech On-Line Search
This will allow you to search our On-Line Digest Paper Abstracts.
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The
International Conference on
Compound Semiconductor Manufacturing Technology
"Sharing Ideas Throughout the
Industry"
2008 On-line
Digest Table of Contents
Order
everything you need with our convenient
on-line
order form, or contact Margaret
Doyle at
mdoyle@gaasmantech.org
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1.1 |
Market Trends for Compound Semiconductor Enabled
Devices
Bruce A. Bernhardt, Motorola Mobile Devices |
Abstract |
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1.2 |
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Abstract |
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1.3 |
Compound Semiconductors From Oddity to Commodity
Curt Barratt, RF Micro Devices |
Abstract |
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1.4 |
III-V on Silicon for Future High
Speed and Ultra-low Power Digital Applications: Challenges and
Opportunities
Robert Chau, Intel |
Abstract |
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1.5 |
The DARPA Compound Semiconductors on
Silicon (COSMOS) Program
Mark Rosker, Defense Advanced Research Projects Agency |
Abstract |
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1.6 |
Compound Semiconductors: Illinois
Contributions and Perspective
Ilesanmi Adesida, University of Illinois, Urbana-Champaign |
Abstract |
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2.1 |
Novel GaAs Switch for Compact and
Efficient Power Conversion
Mariam Sadaka1, Sriram Chandrasekaran1, Al
Rozman1, Wonill Ha2, Bobby Brar2,
Chanh Nguyen2, Vivek Mehrotra2 and Peter
Asbeck3, 1ColdWatt,
2Teledyne Scientific and 3University of
California, San Diego |
Abstract |
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2.2 |
Terahertz Electronics
Michael Shur, Rensselaer Polytechnic Institute |
Abstract |
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2.3 |
Heterointegration Technologies for “Systems in a Foil”
Karlheinz Bock, Fraunhofer Institute for Reliability and
Microintegration |
Abstract |
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3.1 |
The Adoption of
Lighting-Class LEDs into General Illumination Applications
Paul Scheidt, Cree, Inc, |
Abstract |
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3.2 |
Latest Advances in
Multi-junction Photovoltaics
Alexander Slade, Robert McConnell and Vahan Garboushian,
Amonix Inc. |
Abstract |
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4.1 |
Reduction of Process
Variation Through Automated Substrate Temperature
Uniformity Mapping in Multi-Wafer MBE Systems
Thomas J. Rogers, Likang Li, Robert Yanka, Chris Santana,
RFMD,
Jason R. Williams, Charles A. Taylor II, Darryl Barlett, k-Space
Associates, Inc., |
Abstract |
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4.2 |
Development and
Characterization of Photodefinable Polybenzoxazole
Buffer Layer for InGaP/GaAs HBT Applications
Dragana Barone, Jiro Yota, Hoa Ly, Stanley Mui, Shiban Tiku, and
Steve Canale
Skyworks Solutions, Inc. |
Abstract |
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4.3 |
Integration and
Qualification of a Second Site HBT Epitaxial Wafer Foundry
David Troy, Andreas Eisenbach*, Paul Cooke, Tony Pearce*,
Graham Clarke*, Iwan Davies*, Susan Barne*,
IQE RF LLC,
*IQE Europe Ltd., Pascal Close |
Abstract |
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4.4 |
Use of Chemical Mechanical
Polishing for Planarization of GaAs
Integrated Circuits
Michael Meeder, Jeff Vass, Chuck Duncan, Walter Wohlmuth, Mike
Fresina, and Curt Barratt,
RF Micro Devices, Inc |
Abstract |
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4.5 |
Lessons Learned from Laser
Dicing
Travis A Abshere, Moreen Minkoff, and Bill Howell,
TriQuint Semiconductor, |
Abstract |
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5.1 |
SiC and GaN Wide Bandgap Technology Commercial Status
J.W. Milligan, S. Sheppard, W. Pribble, A. Ward, S. Wood, Cree,
Inc., |
Abstract |
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5.2 |
Wafer Quality Target for
Current-Collapse-Free GaN-HEMTs
in High Voltage Applications
Hidetoshi Fujimoto, Wataru Saito, Akira Yoshioka, Tomohiro Nitta,
Yorito Kakiuchi and Yasunobu Saito,
Semiconductor Company, Toshiba Corp. |
Abstract |
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5.3 |
A uniform, reproducible
and reliable GaN HEMT technology with breakdown
voltages in excess of 160 V delivering more than 60% PAE at 80 V
P. Waltereit1, W. Bronner1, R. Quay1, M. Dammann1, S. Müller1, R.
Kiefer1, H. Walcher1, F. van Raay1, O. Kappeler1, M. Mikulla1, F. van
Rijs2, T. Rödle2, S. Murad2, J. Klappe2, P. van der Wel2, P. Henriette2,
B. Aleiner2, I. Blednov2, J. Thorpe3, R. Behtash3, H. Blanck3, K. Riepe3,
1Fraunhofer Institute for Applied Solid State Physics,
2NXP Semiconductors,3
United Monolithic Semiconductors, |
Abstract |
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5.4 |
Over 80% Drain Efficiency
CW AlGaN/GaN HEMT Power Amplifier
H.P. Xin, B. Achiriloaie, V.H. Ngo and A. Mkhitarian,
Tyco Electronics Inc., |
Abstract |
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5.5 |
Performance Improvement of
High Power High Efficiency AlGaN/GaN HEMT based on the Process Design of
Experiment Approach
Yaron Knafo, Tamara Baksht, Oleg Aktushev, David Rozman and Gregory
Bunin,
Gal-El (MMIC), |
Abstract |
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6.1 |
Via etching in BCB for HBT
technology
H.Stieglauer, T.Wiedenmann, H.Bretz, H.Mietz, D.Traulsen, D.Behammer
, United Monolithic Semiconductors – GmbH, |
Abstract |
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6.2 |
Photodefinable
Polybenzoxazole Interlevel Dielectric for GaAs HBT Applications
Jiro Yota, Hoa Ly, Dragana Barone, Mike Sun, and Ravi Ramanathan,
Skyworks Solutions, Inc. |
Abstract |
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6.3 |
Advanced multilayer
interconnect technology for switch ICs using InP HEMTs
Suehiro Sugitani, Kazumi Nishimura, Kiyomitsu Onodera, and Hideki
Kamitsuna,
NTT Photonics Laboratories, NTT Corporation |
Abstract |
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6.4 |
Development of an on-wafer
test for rapid evaluation of doping spike carrier
concentration levels in commercially manufactured GaAs Gunn diodes for
automotive radar applications
N. Farrington1, M. Carr2, J. L. Sly1, M. Missous1
1Microelectronics & Nanostructures group, School of
E&EE, University of Manchester,
2e2v Technologies (UK) Ltd, |
Abstract |
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6.5 |
High Yield, Highly
Scalable, High Voltage GaInP/GaAs HBT Technology
P. Kurpas, B. Janke, A. Wentzel, H. Weiss*, L. Schmidt*, C.
Rheinfelder*, R. Pazirandeh,
A. Maaßdorf, L. Schellhase, W. Heinrich, J. Würfl
Ferdinand-Braun-Institut für Höchstfrequenztechnik (FBH), |
Abstract |
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6.6 |
Dry Etch Development for a
Dual, Front and Backside, processing of II-VI Compound Semiconductors
A.J. Stoltz, P. R. Norton, Night Vision and Electronic Sensors
Directorate, |
Abstract |
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7.1 |
Ultrathin all-binary AlN/GaN
based high-performance RF HEMT Technology
Huili (Grace) Xing, T. Zimmermann, D. Deen, K. Wang, C. Yu, T. Kosel,
P. Fay, and D. Jena,
Department of Electrical Engineering, University of Notre Dame |
Abstract |
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7.2 |
Materials Characterization
and Device Performance Survey of InAlN/GaN
HEMT Layers from Commercial Sources
M. Trejo, G. H. Jessen, A. Crespo, J.K. Gillespie, D. Langley, D.
Denninghoff, and G. D. Via,
Sensors Directorate, Air Force Research Laboratory, Wright-Patterson Air
Force Base, |
Abstract |
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7.3 |
Deep Submicron GaN-based
Heterostructure Field Effect Transistors with InGaN
Channel and InGaN Back-barrier Designs
Yanqing Deng, Vinod Adivarahan, and Asif Khan, Department of
Electrical Engineering, University of South Carolina |
Abstract |
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7.4 |
Epitaxial Rare Earth Oxide
Growth on GaN for Enhancement-mode MOSFETs
J. S. Jur*, V. D. Wheeler*, M. T. Veety**, D. J. Lichtenwalner*, D.
W. Barlage**, M. A. L. Johnson*, North Carolina State University |
Abstract |
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7.5 |
Process and Performance
Improvements to InGaN/GaN HBTs
Chao-Hsin Wu, Benjamin F. Chu-Kung, and Milton Feng,
Department of Electrical and Computer Engineering, University of
Illinois |
Abstract |
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8.1 |
Yield Improvement
Methodology in a pHEMT GaAs Fabrication Facility
James Oerth, Christopher Doucette, Sushila Singh, Sean Doonan,
Skyworks Solutions, Inc |
Abstract |
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8.2 |
Discovery and Elimination
of Defects Causing Yield Loss on E-FET Power Amps
Tertius Rivers, Richard Helm, Jinhong Yang, Sumir Varma, Ed Etzkorn,
Jeremy Middleton, Rob Christ,
Bill Howell,
TriQuint Semiconductor, 2 |
Abstract |
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8.3 |
Reducing chipping defects
during GaAs wafer dicing
with a four-point diamond tool
Jason Chou, Chang-Hwang Hua, Sen Yang and Ping-Wei Chen,
WIN Semiconductors corp. |
Abstract |
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8.4 |
Defectivity Yield Improvement Activity to eliminate nitride
blisters
Mike Clausen, Jason McMonagle, Bela Green, Gayle Murdoch, Andrew
Miller, John Cullen, Jim Moran, Filtronic Compound Semiconductors, |
Abstract |
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9.1 |
Engineered Layer Transfer
Substrates for Heterogeneous Integration of III-V Compound
Semiconductors
M.S. Goorsky, M.B. Joshi, S.L. Hayashi, and M. Jackson, UCLA, |
Abstract |
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9.2 |
Advances in Large Diameter
GaN on Diamond Substrates
Jerry W. Zimmer and Gerry Chandler, sp3 Diamond Technologies, |
Abstract |
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9.3 |
Materials Characterization
Comparison of GaN HEMT-on-Diamond Layers
Pre- and Post-Attachment
John Carlin¹, Gregg Jessen¹, Jim Gillespie¹, David Tomich¹
Daniel Francis², John Wasserbauer², Firooz Faili², Dubravko Babic²,
Felix Ejeckam²,
Wright Patterson AFB, |
Abstract |
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9.4 |
Wafer-fused AlGaAs/GaAs/GaN
HBTs with current gain of ~ 20 and VBR ~ 35 V
Chuanxin Lian and Huili Grace Xing, Department of Electrical
Engineering, University of Notre Dame, |
Abstract |
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10.1 |
Reliability and MMIC
Technology Development and Production
Thomas R. Block, Jeff Elliott, Yeong-Chang Chou, Mike Biedenbender,
Denise Leung, David Eng,
Aaron Oki, Mike Wojtowicz, and Rich Lai, Northrop Grumman Space
Technology, |
Abstract |
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10.2 |
Evaluating Device
Reliability Using Wafer-level Methodology
Dorothy June M. Hamada and William J. Roesch, TriQuint Semiconductor
Inc., |
Abstract |
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10.3 |
Layout Design Rule Effects
on Capacitor Reliability
James D. Oliver, Harlan C. Cramer, and Richard J. Porter, Northrop Grumman Electronic Systems |
Abstract |
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10.4 |
Measuring Liftoff Quality
and Reliability with Special Test Structures
William J. Roesch and Dorothy June M. Hamada, TriQuint
Semiconductor, Inc., |
Abstract |
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11.1 |
Analysis of DC-RF Dispersion in AlGaN/GaN HFETs using RF
Waveform Engineering
Chris Roff, 1 Johannes Benedikt1 and Paul
J. Tasker1
D.J. Wallis, 2 K.P. Hilton, 2 J.O. Maclean,
2 D.G. Hayes, 2 M. J. Uren1,2 and
T. Martin2, 1Cardiff School of Engineering, Cardiff
University |
Abstract |
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11.2 |
Gallium Nitride Surface Treatment Study for FET Passivation Process
Flow Applications
M.T. Veety*, V.D. Wheeler**, M.P. Morgensen*, M.A.L. Johnson**, D.W.
Barlage*, North Carolina State University, |
Abstract |
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11.3 |
Nanosecond Time-Resolved Raman Thermography: Probing Device and
Channel Temperature in Pulsed-Operated GaN and GaAs HEMTs
J.W. Pomeroy1, G. J. Riedel1, M. J. Uren2, T. Martin2,
A. Bullen3,
M. Haynes3,
and M. Kuball1,
1H.H. Wills Physics Laboratory, University of Bristol, Bristol BS8
1TL, United Kingdom, 2QinetiQ Ltd, Malvern, Worcs WR14 3PS, United Kingdom,
3SELEX
Sensors and Airborne Systems Ltd. |
Abstract |
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11.4 |
Charge Trapping at Surface in GaN HEMTs
Hsiang Chen, Phillip Preecha, John Lai, Guann-Pyng Li, Univ. of
California, Irvine, |
Abstract |
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11.5 |
Evaluation of Test Methods Employed for Characterizing
Semi-Insulating Nature of Monocrystaline SiC Semiconductor Materials
M.F. MacMillan1, W. Mitchel2, J. Blevins2, G. Landis2 , J. Daniel2 , R.
S. Sandhu3, G.
Chung1, M. Spaulding1 T. F. Zoes1, E. Emorhokpor4, C. Basceri5, J.
Jenny5, E. Berkman5,
Wolfgang Jantz6, W. Eichhorn7, A. Blew8, and J.D. Oliver9 Mark Fanton10,
Tim Bogart10 and Bill Eversson10
1 Dow Corning Corporation,
2 Air Force Research Laboratory
3 Northrop Grumman Corporation
4 II-VI, Inc.
5 Cree, Inc.
6 SemiMap Scientific Instruments GmbH
7 Eichhorn and Hausman, GMBH
8 Lehighton Electronics
9 Northrop Grumman Corporation
10 Penn State Electro-Optics Center |
Abstract |
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12.1 |
GaAs MESFET with
Source-Connected Field Plate for High Voltage MMICs
M. L. Balzan, M. J. Drinkwine, and T. A. Winslow*, Tyco Electronics,
Inc., |
Abstract |
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12.2 |
Improving the
Breakdown Voltage for 100nm GaAs pHEMTs by the Support of Device
Simulations
P. Abele, M. Schaefer*1, M. Hosch *2, J. Splettstoesser, and D. Behammer
, United Monolithic Semiconductors – GmbH, |
Abstract |
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12.3 |
Design and
Fabrication of a Compact GaAs IPD Balun
Jon Abrokwah, Qiang Li, Lianjun Liu, Shahin Farahani‡, Dan Miller‡,Jyoti
Mondal, Adolfo Reyes‡‡ and Jim Cotronakis‡‡
+, Freescale Semiconductor Inc |
Abstract |
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12.4 |
Product Sensitivity
Analysis on Multithrow TX/RX Switches
Jerod Mason, David Petzold, Aparna Joshi, Edward Aspell, Skyworks Solutions, Inc. |
Abstract |
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12.5 |
InP
DHBT technology for 100 Gbit/s applications
R. Driad, R.E. Makon, F. Benkhelifa, and R. Lösch,, Fraunhofer Institute for Applied Solid State Physics, |
Abstract |
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13.1 |
Effect of Gate Edge Silicidation on Gate Leakage Current in AlGaN/GaN
HEMTs
Toshihiro Ohki, Masahito Kanamura, Naoya Okamoto, Kenji Imanishi,
Kozo Makiyama, Kazukiyo Joshin, Toshihide Kikkawa and Naoki Hara, Fujitsu Ltd. and Fujitsu Laboratories Ltd. |
Absract |
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13.2 |
Technology for Non-Recessed Short Gate Length E-Mode AlGaN/GaN
High-Electron Mobility Transistors
Anirban Basu, Minjun Yan, Vipan Kumar, Ilesanmi Adesida, Micro and Nanotechnology Laboratory and Department of Electrical and
Computer Engineering
University of Illinois at Urbana-Champaign |
Abstract |
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13.3 |
A
Surface Treatment Technique for III-N Device Fabrication
Yun Zhang, Jae-Hyun Ryou, Russell D. Dupuis, and Shyh-Chiang Shen, School of Electrical and Computer Engineering |
Abstract |
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13.4 |
Pre-passivation Plasma Surface Treatment Effects on Critical Device
Electrical Parameters of AlGaN/GaN HEMTs
David J. Meyer1*, Joseph R. Flemish1, and Joan M. Redwing1, 1
Department of Materials Science and Engineering, The Pennsylvania
State University, |
Abstract |
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13.5 |
A
Novel AlGaN/GaN Field-Effect Diode with a Low Turn-on Voltage Operation
using Fluoride-Based Plasma Treatment
K. Takatani, T. Nozawa, T. Oka, H. Kawamura, and K. Sakuno, Advanced Technology Research Laboratories, Sharp Corporation, |
Abstract |
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14.1 |
An
InGaP/GaAs HBT/JFET BiFET technology for PA bias circuit applications
Brian Moser, W. Wohlmuth, S. Nedeljkovic, W. Clausen, D. Halchin, R.
Vass, and M. Fresina, RFMD |
Abstract |
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14.2 |
Nano-scale Type-II InP/GaAsSb DHBTs to Reach THz Cutoff Frequencies
William Snodgrass and Milton | | | |
