Reference : Formation of ultra-thin Ge1−xSnx/Ge1−x−ySixSny quantum heterostructures and their ele...
Scientific journals : Article
Physical, chemical, mathematical & earth Sciences : Physics
Physics and Materials Science
http://hdl.handle.net/10993/45527
Formation of ultra-thin Ge1−xSnx/Ge1−x−ySixSny quantum heterostructures and their electrical properties for realizing resonant tunneling diode
English
Suwito, Galih Ramadana []
Fukuda, Masahiro []
Suprayoga, Edi []
Otsuka, Masahiro []
Hasdeo, Eddwi Hesky mailto [University of Luxembourg > Faculty of Science, Technology and Medicine (FSTM) > Department of Physics and Materials Science (DPHYMS) >]
Nugraha, Ahmad Ridwan []
Sakashita, Mitsuo []
Shibayama, Shigehisa []
Nakatsuka, Osamu []
8-Dec-2020
Applied Physics Letters
American Institute of Physics
117
23
232104
Yes (verified by ORBilu)
International
0003-6951
1077-3118
Melville
NY
[en] quantum heterostructures ; resonant tunneling diode
[en] Huge thermal noise owing to the narrow energy bandgap is one of the critical issues for group IV-based photonics in the mid-infrared regime. With this motivation, we examined to form Ge1−xSnx/Ge1−x−ySixSny quantum heterostructures (QHs) by molecular beam epitaxy for realizing resonant tunneling diodes composed of group-IV materials. We confirmed the formation of approximately 2 nm-thick Ge1−xSnx/Ge1−x−ySixSny QHs with atomically flat interfaces by x-ray diffraction and transmission electron microscopy methods. Moreover, by the current density–voltage (J–V) measurement at 10 K, we observed the occurrence of a non-linear distinct hump in the J–V characteristic, which is possibly originated from quantum transport of heavy holes. According to the tunneling transmission spectra simulation result, the hump property would be due to two possible scenarios: a resonant tunneling of heavy holes in the QH and/or a resonance phenomenon that heavy holes pass just above a potential barrier.
http://hdl.handle.net/10993/45527

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