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Crystal Growth 1 - Fundamentals of Crystal Growth and Semiconductor Technology (CG-1)- Lecturer
- Prof. Dr.-Ing. Peter Wellmann
- Details
- Vorlesung
Online
2 cred.h, ECTS studies, ECTS credits: 3
nur Fachstudium, Sprache Englisch
Asynchrone Lehrveranstaltung, http://www.studon.uni-erlangen.de/studon/goto.php?target=crs_359146
Zeit: everyn month on 2. Mon 14:15 - 15:00, Zoom-Meeting; comments on time and place: https://fau.zoom.us/j/94576058631?pwd=QVBOK0N4cVp3cmM1WHdsdUlkUGY3dz09
starting 9.11.2020
Preliminary meeting: 9.11.2020, 14:15 - 15:00 Uhr, room Zoom-Meeting
- Fields of study
- WPF MWT-MA-WET ab 1 (ECTS-Credits: 3)
WPF ET-MA-MWT ab 1 (ECTS-Credits: 3)
WPF NT-MA ab 1 (ECTS-Credits: 3)
- Prerequisites / Organisational information
- Prüfung: eKlausur, unbenoteter Leistungsnachweis (Bestehen mit mindestens 70% der maximalen Punktzahl)
- Contents
- Fundamentals of crystal growth with focus on melt growth, introduction to the processing of Si-based semiconductor devices using planar technology:
I.1 Fundamentals of Crystal Growth
· Introduction
· Driving force for crystallization
· Heat and mass transport
· Melt convection (forced convection, magnetic fields)
· Meniscus formation
· Shape of growth interface
· Growth kinetics (Kossel model, Jackson Factor, etc.)
I.2 Melt Growth (Si, III-V, Oxides)
· Review – preparation of semiconductor grade Si source material
· Si Czochralski & floating zone processes
· Point defects & oxygen in bulk silicon
· Overview on further Si processing (bulk and thin films)
· Czochralski & Vertical Gradient Freeze growth process of III-V
compounds
· Semiconductor substrates (semi-insulating materials)
· Solar Silicon growth techniques (casting, “shaped crystal growth, …)
II. Semiconductor Technology – focus on silicon
II.1 Fundamentals of Planar Technology
II.2 Oxidation Process
II.3 Lithography
II.4 Etching
II.5 Doping by Diffusion & Ion Implantation
II.6 Metallization and Vacuum Deposition Techniques
II.7 Packaging
- Recommended literature
- S.M. Sze; Semiconductor Devices – Physics and Technology (14 x T80/8S58(2))
P.J. Wellmann; Materialien der Elektronik und Energietechnik : Halbleiter, Graphen, funktionale Materialien; Springer Vieweg (2019), 2nd edition, ISBN 978-3-658-26991-3
- ECTS information:
- Title:
- Crystal Growth 1 - Fundamentals of Crystal Growth and Semiconductor Technology
- Credits: 3
- Prerequisites
- Electronic exam, passing with at least 70%
- Contents
- Fundamentals of crystal growth with focus on melt growth, introduction to the processing of Si-based semiconductor devices using planar technology:
I.1 Fundamentals of Crystal Growth
· Introduction
· Driving force for crystallization
· Heat and mass transport
· Melt convection (forced convection, magnetic fields)
· Meniscus formation
· Shape of growth interface
· Growth kinetics (Kossel model, Jackson Factor, etc.)
I.2 Melt Growth (Si, III-V, Oxides)
· Review – preparation of semiconductor grade Si source material
· Si Czochralski & floating zone processes
· Point defects & oxygen in bulk silicon
· Overview on further Si processing (bulk and thin films)
· Czochralski & Vertical Gradient Freeze growth process of III-V compounds
· Semiconductor substrates (semi-insulating materials)
· Solar Silicon growth techniques (casting, “shaped crystal growth, …)
II. Semiconductor Technology – focus on silicon
II.1 Fundamentals of Planar Technology
II.2 Oxidation Process
II.3 Lithography
II.4 Etching
II.5 Doping by Diffusion & Ion Implantation
II.6 Metallization and Vacuum Deposition Techniques
II.7 Packaging
- Literature
- S.M. Sze; Semiconductor Devices – Physics and Technology (14 x T80/8S58(2))
P.J. Wellmann; Materialien der Elektronik und Energietechnik : Halbleiter, Graphen, funktionale Materialien; Springer Vieweg (2019), 2nd edition, ISBN 978-3-658-26991-3
- Additional information
- Keywords: crystal growth, processing, Silicon, semiconductor technology
Expected participants: 15, Maximale Teilnehmerzahl: 25
www: http://www.studon.uni-erlangen.de/studon/goto.php?target=crs_359146
- Verwendung in folgenden UnivIS-Modulen
- Startsemester WS 2020/2021:
- Crystal Growth 1 (cgl-1)
- Crystal Growth ET (MWT 3) (CGET)
- Crystal Growth MWT (M2 - M3) (CGMWT)
- Kristallzüchtung und Halbleitertechnologie (CG-NT)
- Materialien der Elektronik und Energietechnik mit Vertiefung Crystal Growth (M1_CG_WW6)
- Semiconductor Fundamentals, Characterization, Materials & Processing (SF- Ch- M&P)
- Department: Chair of Materials for Electronics and Energy Technology
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