JUNE 16-21, 2013 • TAMPA, FLORIDA
209
K3
(784)
Laminated Solar Panels for Space Using
Multi-Cell Transparent Covers
Theodore Stern
1
,
Matthew Wrosch
1
,
Nicholas
Walmsley
1
,
Paul Hausgen
2
,
David Wilt
2
,
Phillip
Jenkins
3
1
Vanguard Space Technologies, San Diego, CA,
USA,
2
Air Force Research Laboratories, Kirtland
AFB, NM, USA,
3
Naval Research Laboratory,
Washington, DC, USA
K4
(785)
Increasing the Limiting Efficiency of
Space Solar Cells at End-of-Life
Don Walker, De-Ling Liu, Simon H. Liu
The Aerospace Corporation, El Segundo, CA,
USA
K5
(786)
Cathodoluminescence Study of Irradiated
p
+
n GaAs Solar Cells
Jeffrey H. Warner
1
,
Scott R. Messenger
1
,
Robert J.
Walters
1
,
Raymond Hoheisel
2
,
Manuel J. Romero
3
1
Naval Research Laboratory, Washington, DC,
USA,
2
The George Washington University,
Washington, DC, USA,
3
The National Renewable
Energy Laboratory, Golden, CO, Canada
K6
(787)
State-of-the-Art 150mm Based III-V
Multijunction Manufactruing Capability,
Product Qualification, and Production Results
Jim P Hanley, Beth M Stone, Jeff P Krogen, S.K.
Sharma, Bongim Jun, Paul J Clapper, Jeff B
Peacock, Terry Cavicchi
K7
(788)
Indium Tin Oxide Coverings on Solar
Panels for Plasma–Spacecraft Connection
Jesse K McTernan, Sven G Bilén
Penn State University, University Park, PA, USA
K8
(789)
Space Photovoltaic Reliability - Reasons
Why for Solar Power Standards AIAA S-111-
2005
AIAA S-112-2005 and AIAA S-122-2007
Brad Reed
SLM Engineering, Wrightwood, CA, USA
K9
(790)
Recent Progress of High-Efficiency III-V
multijunction Solar Cells
Lijie Sun, Mengyan Zhang, Xin Fang, Kaijian
Chen, Wei Zhang, Mengjiong Chen, Jianfeng Lu
Center for Photovoltaic Engineering,Shanghai
Solar Energy Research Center, Shanghai, China
K10
(791)
Novel Flexible Solar Cell Coverglass for
Space Photovoltaic Devices
David M Wilt
1
,
Neil Snyder
2
,
Phillip P. Jenkins
3
1
Air Force Research Laboratory, Albuquerque,
NM, USA,
2
Schafer Corporation, Albuquerque,
NM, USA,
3
Naval Research Laboratory,
Washington, DC, USA
TECHNICAL PROGRAM
