Christian P. Morath
Christian P. Morath
Air Force Research Lab Space Vehicles Directorate
Bestätigte E-Mail-Adresse bei
Zitiert von
Zitiert von
High-responsivity, normal-incidence long-wave infrared (λ∼ 7.2 μm) InAs/In0. 15Ga0. 85As dots-in-a-well detector
S Raghavan, P Rotella, A Stintz, B Fuchs, S Krishna, C Morath, ...
Applied Physics Letters 81 (8), 1369-1371, 2002
Coulomb drag in the exciton regime in electron-hole bilayers
JA Seamons, CP Morath, JL Reno, MP Lilly
Physical Review Letters 102 (2), 026804, 2009
Two color InAs/InGaAs dots-in-a-well detector with background-limited performance at 91 K
S Krishna, S Raghavan, G Von Winckel, P Rotella, A Stintz, CP Morath, ...
Applied Physics Letters 82 (16), 2574-2576, 2003
Radiation tolerance characterization of dual band InAs/GaSb type-II strain-layer superlattice pBp detectors using 63 MeV protons
VM Cowan, CP Morath, JE Hubbs, S Myers, E Plis, S Krishna
Applied Physics Letters 101 (25), 2012
Vertical carrier transport in strain-balanced InAs/InAsSb type-II superlattice material
LK Casias, CP Morath, EH Steenbergen, GA Umana-Membreno, ...
Applied Physics Letters 116 (18), 2020
Proton irradiation effects on the performance of III-V-based, unipolar barrier infrared detectors
CP Morath, VM Cowan, LA Treider, GD Jenkins, JE Hubbs
IEEE Transactions on Nuclear Science 62 (2), 512-519, 2015
Diffusion current characteristics of defect-limited nBn mid-wave infrared detectors
GR Savich, DE Sidor, X Du, CP Morath, VM Cowan, GW Wicks
Applied Physics Letters 106 (17), 2015
Density imbalance effect on the Coulomb drag upturn in an undoped electron-hole bilayer
CP Morath, JA Seamons, JL Reno, MP Lilly
Physical Review B—Condensed Matter and Materials Physics 79 (4), 041305, 2009
Empirical study of the disparity in radiation tolerance of the minority-carrier lifetime between II–VI and III–V MWIR detector technologies for space applications
GD Jenkins, CP Morath, VM Cowan
Journal of Electronic Materials 46 (9), 5405-5410, 2017
Low-temperature noise measurements of an InAs/GaSb-based nBn MWIR detector
VM Cowan, CP Morath, S Myers, N Gautam, S Krishna
Infrared Technology and Applications XXXVII 8012, 355-362, 2011
High responsivity, LWIR dots-in-a-well quantum dot infrared photodetectors
DT Le, CP Morath, HE Norton, DA Cardimona, S Raghavan, P Rotella, ...
Infrared physics & technology 44 (5-6), 517-526, 2003
Temperature-Dependent Minority-Carrier Mobility in -Type / Type-II-Superlattice Photodetectors
Z Taghipour, S Lee, SA Myers, EH Steenbergen, CP Morath, VM Cowan, ...
Physical Review Applied 11 (2), 024047, 2019
Mid-wavelength infrared unipolar nBp superlattice photodetector
A Kazemi, S Myers, Z Taghipour, S Mathews, T Schuler-Sandy, S Lee, ...
Infrared Physics & Technology 88, 114-118, 2018
Gamma-ray irradiation effects on InAs/GaSb-based nBn IR detector
VM Cowan, CP Morath, SM Swift, S Myers, N Gautam, S Krishna
Quantum Sensing and Nanophotonic Devices VIII 7945, 467-474, 2011
Recombination rate analysis in long minority carrier lifetime mid-wave infrared InGaAs/InAsSb superlattices
RA Carrasco, CP Morath, PC Grant, G Ariyawansa, CA Stephenson, ...
Journal of Applied Physics 129 (18), 2021
More accurate quantum efficiency damage factor for proton-irradiated, III-V-based unipolar barrier infrared detectors
CP Morath, EA Garduno, VM Cowan, G Jenkins
IEEE Transactions on Nuclear Science 64 (1), 74-80, 2016
Comparison of superlattice based dual color nBn and pBp infrared detectors
S Myers, E Plis, C Morath, V Cowan, N Gautam, B Klein, MN Kutty, ...
Infrared Sensors, Devices, and Applications; and Single Photon Imaging II …, 2011
Growth of room-temperature “arsenic free” infrared photovoltaic detectors on GaSb substrate using metamorphic InAlSb digital alloy buffer layers
E Plis, P Rotella, S Raghavan, LR Dawson, S Krishna, D Le, CP Morath
Applied physics letters 82 (11), 1658-1660, 2003
Comparing II-VI and III-V infrared detectors for space applications
EH Steenbergen, CP Morath, D Maestas, GD Jenkins, JV Logan
Infrared Technology and Applications XLV 11002, 299-307, 2019
Laterally-biased quantum dot infrared photodetector
DA Cardimona, CP Morath, DH Guidry, VM Cowan
Infrared Physics & Technology 59, 93-99, 2013
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