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searching for Molecular-beam epitaxy 52 found (194 total)

alternate case: molecular-beam epitaxy

Robin F. C. Farrow (64 words) [view diff] no match in snippet view article find links to article

Physical Society in 1998, "[f]or pioneering the development of molecular beam epitaxy to grow and study epitaxial semiconductors, metastable phases, dielectrics

structures and cooperative assembly of quantum dot arrays Si-based Molecular Beam Epitaxy, quantum structures and devices; Nano-epitaxy of hetero-structures;

properties of TmP/GaAs and GaAs/TmP/GaAs heterostructures grown by molecular beam epitaxy". Journal of Materials Research. 16 (11): 3266–3273. Bibcode:2001JMatR

(1985). "Modulation Doping of Semiconductor Heterostructures". Molecular Beam Epitaxy and Heterostructures. pp. 499–531. doi:10.1007/978-94-009-5073-3_14

diffraction studies of InGaAs(P)/InP superlattices grown by gas-source molecular-beam epitaxy". Journal of Applied Physics. 62 (4): 1278–1283. Bibcode:1987JAP

InGaN laser diodes grown on bulk GaN substrates by plasma-assisted molecular beam epitaxy". Semiconductor Science and Technology. 20 (8): 809–813. Bibcode:2005SeScT

development of optical interconnects based on GaAs/Si and InGaAs/Si using molecular beam epitaxy and developed the modeling tools for the optical interconnect design

doi:10.1007/BF00792038. S2CID 93036462. Wu, P.; Tiedje, T. (2016). "Molecular beam epitaxy growth and optical properties of single crystal Zn3N2 films". Semiconductor

"Perpendicular Magnetic Anisotropy and Spin Glass-like Behavior in Molecular Beam Epitaxy Grown Chromium Telluride Thin Films". ACS Nano. 9 (4): 3772–3779

"Silicon-germanium base heterojunction bipolar transistors by molecular beam epitaxy", International Electron Devices Meeting (1987). G.L. Patton, S

100425. ISSN 2666-3864. S2CID 235555007. Wu, P.; Tiedje, T. (2018). "Molecular beam epitaxy growth and optical properties of Mg3N2 films". Applied Physics Letters

which are related to physical properties of materials produced by Molecular Beam Epitaxy (MBE), co-edited two books, has seven U.S. patents, and has given

epitaxy or mechanical exfoliation. Epitaxial growth methods such as molecular beam epitaxy and metal organic chemical vapor deposition are common methods of

the development of compound semiconductor materials growth using molecular beam epitaxy". She is also a fellow of the American Vacuum Society. In 2016,

gold-assisted vapor-liquid-solid (VLS) growth of GaAs nanowires by molecular beam epitaxy [1]. In 2008-2014, following Frank Glas [2], he developed theoretical

(February 2000). "Photoluminescence of GaAs grown by metallorganic molecular beam epitaxy in space ultra-vacuum". Journal of Crystal Growth. 209 (2–3): 435–439

14 (1): 175–176. Nanishi, Y.; Araki, T.; Yamaguchi, T. (2010). "Molecular-beam epitaxy of InN". In Veal, T. D.; McConville, C. F.; Schaff, W. J. (eds.)

periodic structural changes in semiconductor crystals. His unique "molecular beam epitaxy" thin-film crystal growth method can be regulated quite precisely

Molecular Beam Epitaxy Research Group. 2014-08-19. Retrieved 2019-08-14. Johnson, Shane (May 1998). "In situ temperature control of molecular beam epitaxy

Ohtsuka; J Kawamata; Z Zhu; T Yao (1994). "p-type CdSe grown by molecular beam epitaxy using a nitrogen plasma source". Applied Physics Letters. 65 (4):

"A new universality class for kinetic growth: One-dimensional molecular-beam epitaxy". Physical Review Letters. 66 (3). American Physical Society (APS):

Island-Size Distribution and Percolation in a Model of Submonolayer Molecular-Beam Epitaxy Physical Review B 50 (12): 8781-8797 Sep 15 1994 (times cited: 175)

silicon bipolar devices 1991 John Bean For contributions to silicon molecular-beam epitaxy 1991 Nathan Bluzer For contributions to infrared image sensors and

electronics applications. She dubbed this work "lunatic fringe molecular beam epitaxy". She also contributed to high-temperature superconductors and transparent

photovoltaic solar cells and later crystal growth of III-V compounds using molecular beam epitaxy. In 1993, Cooley entered the doctoral program at Air Force Institute

Zhengru; Tang, Tao (2011). "An Adaptive Time-Stepping Strategy for the Molecular Beam Epitaxy Models". SIAM Journal on Scientific Computing. 33 (3): 1395–1414

Y. Cho Physics For development and refinement of techniques of molecular beam epitaxy for use in quantum physics 1997 Irwin Fridovich Life Science For

35×106cm2/Vs". Journal of Crystal Growth. International Conference on Molecular Beam Epitaxy (MBE-XV). 311 (7): 1658–1661. Bibcode:2009JCrGr.311.1658U. doi:10

device-compatible substrate is necessary, but remains a challenge. Molecular beam epitaxy is the main approach for the growth of high-quality borophene. The

15048. ISSN 0096-2430. S2CID 51637380. Kasper, E. (2018). Silicon-Molecular Beam Epitaxy. CRC Press. ISBN 9781351093514. Siegel, Peter H.; Kerr, Anthony

In1-xMnxAs and Ga1-xMnxAs in late 1990s in Japan, Furdyna extended his molecular beam epitaxy laboratory to preparation and research on these new ferromagnetic

"Silicon-Germanium Base Heterojunction Bipolar Transistors by Molecular Beam Epitaxy". IEDM Tech. Dig: 874–876.{{cite journal}}: CS1 maint: multiple

Paik, Hanjong; Ray, Ethan; Williams, Michael D. (March 2023). "Molecular beam epitaxy of KTaO 3". Journal of Vacuum Science & Technology A. 41 (2): 022703

1992, was to exploit the new opportunities presented by the use of Molecular Beam Epitaxy to produce lattice matched semiconductor heterostructures in III-V

applied to synthesize these types of thin film heterostructures. Molecular beam epitaxy has been demonstrated to be capable of depositing structures consisting

systems such as Metal-Organic Chemical Vapor Deposition (MOCVD) or Molecular Beam Epitaxy (MBE), and an additional substrate removal process is needed in

the University of NSW. Her research in nanoelectronics combines molecular beam epitaxy and scanning tunnelling microscopy to develop novel electronic devices

surface. Thin films can be prepared by chemical vapour deposition and molecular beam epitaxy. Three major crystalline phases are known for TaS2: trigonal 1T

Photocatalytic Water Splitting on GaN Nanowire Arrays Grown by Molecular Beam Epitaxy". Nano Letters. 11 (6): 2353–2357. Bibcode:2011NanoL..11.2353W.

gradually, layer by layer, using a variety of techniques such as molecular-beam epitaxy, liquid-phase epitaxy, and vapor-phase epitaxy, an example being

quantum dots form spontaneously under specific conditions during molecular beam epitaxy or another form of atomic deposition. This spontaneous formation

Characterization of GaN/InxGa1−xN/InyAl1−yN Quantum Wells by Plasma-Assisted Molecular Beam Epitaxy". Crystals. 12 (3): 417. doi:10.3390/cryst12030417. ISSN 2073-4352

used for many years. It was finally supplanted in the 1970s by molecular beam epitaxy and organometallic chemical vapor deposition. Diode lasers of that

2005 Alfred Y. Cho "For his contributions to the invention of the molecular beam epitaxy (MBE) technology and the development of the MBE technology into

of Ga-doped ZnO layers on a-plane sapphire substrates grown by molecular beam epitaxy". Journal of Crystal Growth. 237–239: 538–543. Bibcode:2002JCrGr

processes used for depositing the layers are complex. They include Molecular Beam Epitaxy and Metal Organic Vapour Phase Epitaxy. The current efficiency record

PMID 14639717. Archived from the original (PDF) on 14 July 2014. "Molecular Beam Epitaxy & Atomic Layer Deposition Systems". SVT Associates. ALD animation

"Room temperature photoluminescence times in a GaAs/AlxGa1-xAs molecular beam epitaxy multiple quantum well structure," Appl. Phys. Lett. 46, 280-282

serve as a scaffold to support the photoactive heterojunction. Molecular beam epitaxy is used to deposit CdTe and CdS as the p/n-type materials and ion-assisted

A. 8 (5): 2539–2548. doi:10.1039/C9TA09303F. hdl:10852/84066. "Molecular Beam Epitaxy, Thin Film Deposition and Atomic Layer Deposition Systems - SVT

Professor of Industrial Chemistry at Cornell University; known for molecular-beam epitaxy "materials-by-design" of complex oxides impacting the integration

emitting diodes with high internal quantum efficiency grown by molecular beam epitaxy". Applied Physics Letters. 98 (8): 081110. Bibcode:2011ApPhL..98h1110L