Molecular Beam Epitaxy: From Research to Mass Production

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Mohamed Henini (The University of Nottingham, School of Physics and Astronomy, UK)

Molecular Beam Epitaxy

From Research to Mass Production

Mohamed Henini (The University of Nottingham, School of Physics and Astronomy, UK)

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English

Elsevier Science Publishing Co Inc
26 June 2018

States of matter; Condensed matter physics (liquid state & solid state physics); Materials science

Molecular Beam Epitaxy (MBE): From Research to Mass Production, Second Edition, provides a comprehensive overview of the latest MBE research and applications in epitaxial growth, along with a detailed discussion and ‘how to’ on processing molecular or atomic beams that occur on the surface of a heated crystalline substrate in a vacuum. The techniques addressed in the book can be deployed wherever precise thin-film devices with enhanced and unique properties for computing, optics or photonics are required. It includes new semiconductor materials, new device structures that are commercially available, and many that are at the advanced research stage.

This second edition covers the advances made by MBE, both in research and in the mass production of electronic and optoelectronic devices. Enhancements include new chapters on MBE growth of 2D materials, Si-Ge materials, AIN and GaN materials, and hybrid ferromagnet and semiconductor structures.

Edited by: Mohamed Henini (The University of Nottingham School of Physics and Astronomy UK)
Imprint: Elsevier Science Publishing Co Inc
Country of Publication: United States
Edition: 2nd edition
Dimensions: Height: 276mm, Width: 216mm,
Weight: 2.110kg
ISBN: 9780128121368
ISBN 10: 012812136X
Pages: 788
Publication Date: 26 June 2018
Audience: Professional and scholarly , Undergraduate
Format: Paperback
Publisher's Status: Active

Dr M. Henini has over 20 years’ experience of Molecular Beam Epitaxy (MBE) growth and has published >700 papers. He has particular interests in the MBE growth and physics of self-assembled quantum dots using electronic, optical and structural techniques. Leaders in the field of self-organisation of nanostructures will give an account on the formation, properties, and self-organization of semiconductor nanostructures.