This website is no longer updated.

As of 1.10.2022, the Faculty of Physics has been merged into the TUM School of Natural Sciences with the website https://www.nat.tum.de/. For more information read Conversion of Websites.

de | en

Experimental Semiconductor Physics

Prof. Martin Stutzmann

Research Field

Our work at the Walter Schottky Institut deals with various aspects of new and non conventional semiconductor materials and material combinations: semiconductors with a wide bandgap (GaN, InGaN, AlGaN, diamond, SiC) disordered semiconductors (amorphous, nanocrystalline, and polycrystalline) advanced thin film systems (silicon-based luminescent layers, thin film solar cells, organic/anorganic heterosystems, biofunctionalized semiconductors). Most of these material systems are prepared in our group by suitable deposition techniques (MBE, MOCVD, Plasma-enhanced CVD, e-beam evaporation, sputtering). Their efficient optimization is based on the large pool of structural, optical, and electrical characterization techniques available in our Institute. Complementary to the usual spectroscopic techniques we have developed and employ a variety of highly sensitive methods which enable us to study in particular the influence of defects on the electronic performance of materials and devices. Such techniques include subgap absorption spectroscopy, optically induced capacitance spectroscopy and, in particular, modern spin resonance techniques which are applied to various materials systems and devices for spintronics.

In addition to the preparation and characterization of new semiconductor materials we also work on the modification and processing of semiconductors with pulsed high power laser systems (laser-crystallization, holographic nano structuring, laser-induced etching) and investigate the potential of new material systems for novel device structures. Recent examples include nano structured thin film solar cells, high electron mobility transistors based on AlGaN/GaN hetero structures, as well as UV-detectors, sensors and biosensors.

Learn more about the different research areas on the research pages of the Stutzmann, Brandt, and Garrido groups.

Address/Contact

Am Coulombwall 4
85748 Garching b. München
+49 89 289 12761
Fax: +49 89 289 12737

Members of the Research Group

Professor

Office

Scientists

Students

Other Staff

Teaching

Course with Participations of Group Members

Titel und Modulzuordnung
ArtSWSDozent(en)Termine
Advanced Semiconductor Physics
eLearning-Kurs
Zuordnung zu Modulen:
VO 4 Brandt, M. Mo, 10:00–12:00, PH HS3
Di, 12:00–14:00, PH HS3
Experimental Physics 3 in English
eLearning-Kurs
Zuordnung zu Modulen:
VO 2 Sharp, I. Mo, 14:00–16:00, PH HS1
sowie einzelne oder verschobene Termine
Quantum Sensing
eLearning-Kurs
Zuordnung zu Modulen:
VO 2 Brandt, M. Bucher, D. Hübl, H. Mi, 10:00–12:00, ZNN 0.001
Advances in Atomic Layer Deposition and Etching
eLearning-Kurs
Zuordnung zu Modulen:
PS 2 Sharp, I. Termine in Gruppen
Current Topics in Semiconductor Physics and Advanced Materials
Zuordnung zu Modulen:
PS 2 Sharp, I. Fr, 13:00–14:30, WSI S101
Energy Materials at Work - Operando Methods in Energy Conversion
eLearning-Kurs
Zuordnung zu Modulen:
PS 2 Sharp, I.
Mitwirkende: Eichhorn, J.Streibel, V.
Topical Issues in Magneto- and Spin Electronics
LV-Unterlagen
Zuordnung zu Modulen:
PS 2 Brandt, M. Hübl, H.
Mitwirkende: Althammer, M.Geprägs, S.
Mi, 11:30–13:00, WSI S101
Exercise to Advanced Semiconductor Physics
eLearning-Kurs
Zuordnung zu Modulen:
UE 2 Moser, P.
Leitung/Koordination: Brandt, M.
Termine in Gruppen
Exercise to Experimental Physics 3 in English
Zuordnung zu Modulen:
UE 1 Rieth, T.
Leitung/Koordination: Sharp, I.
Termine in Gruppen
Exercise to Quantum Sensing
Zuordnung zu Modulen:
UE 1
Leitung/Koordination: Brandt, M.
Termine in Gruppen
Experimentelle Methoden der Festkörperspektroskopie
Zuordnung zu Modulen:
SE 2 Brandt, M.
FOPRA-Versuch 08: Hochauflösende Röntgenbeugung (AEP, BIO, KM)
LV-Unterlagen aktuelle Informationen
Zuordnung zu Modulen:
PR 1 Sirotti, E. Wagner, L.
Leitung/Koordination: Sharp, I.
FOPRA-Versuch 15: Quanteninformation in Stickstoff-Fehlstellen-Zentren in Diamant (AEP, KM, QST-EX)
Zuordnung zu Modulen:
PR 1 Todenhagen, L. Vogl, D.
Leitung/Koordination: Brandt, M.
FOPRA-Versuch 28: Halbleiter-Photoelektrochemie (AEP, KM)
Zuordnung zu Modulen:
PR 1 Kuhl, M. Kunzelmann, V.
Leitung/Koordination: Sharp, I.
FOPRA-Versuch 50: Photovoltaik (AEP, KM)
aktuelle Informationen
Zuordnung zu Modulen:
PR 1 Kuhl, M. Wagner, L. Wörle, S.
Leitung/Koordination: Sharp, I.
Literatur-Seminar zu Festkörperphysik
Zuordnung zu Modulen:
SE 2 Sharp, I.
Repetitorium zu Aktuelle Themen der Magneto- und Spinelektronik
Zuordnung zu Modulen:
RE 2
Leitung/Koordination: Hübl, H.
Repetitorium zu Fortschritte in der Atomlagenabscheidung (ALD) und Atomlagenätzung (ALE)
Zuordnung zu Modulen:
RE 2
Leitung/Koordination: Sharp, I.
Schottky-seminar
Diese Lehrveranstaltung ist keinem Modul zugeordnet.
SE 2 Belkin, M. Brandt, M. Finley, J. Holleitner, A. Sharp, I. … (insgesamt 6)
Vorbesprechung zum Fortgeschrittenen-Praktikum (F-Praktikum)
eLearning-Kurs aktuelle Informationen
Zuordnung zu Modulen:
OV 0.1 Schönert, S. Sharp, I. einzelne oder verschobene Termine

Current and Finished Theses in the Group

Towards Entanglement of Electronic and Nuclear Spins in Nitrogen-Vacancy Center Ensembles in Diamond
Abschlussarbeit im Masterstudiengang Quantum Science & Technology
Themensteller(in): Martin Brandt
Characterization of Paramagnetic States in Transmon Qubits
Abschlussarbeit im Masterstudiengang Physik (Physik der kondensierten Materie)
Themensteller(in): Martin Brandt
Influence of Moving Charge Carriers on the Coherence Time of Nitrogen Vacancy Centers in Diamond
Abschlussarbeit im Bachelorstudiengang Physik
Themensteller(in): Martin Brandt
Electronic transport through 4H-SiC MPS diodes under uniaxial and biaxial stress
Abschlussarbeit im Bachelorstudiengang Physik
Themensteller(in): Martin Brandt
Top of page