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Prof. Dr. Martin Stutzmann

Photo von Prof. Dr. Martin Stutzmann.
Phone
+49 89 289-12760
Room
WSI: S207
E-Mail
stutzmann@tum.de
Links
Homepage
Page in TUMonline
Group
Experimental Semiconductor Physics
Job Title
Professorship on Experimental Semiconductor Physics

Courses and Dates

Title and Module Assignment
ArtSWSLecturer(s)Dates
Experimental Physics 1 (MSE)
eLearning course course documents
Assigned to modules:
VO 2 Stutzmann, M. Wed, 15:00–16:30, MW 2001
Current Problems in Semiconductor Physics
Assigned to modules:
HS 2 Stutzmann, M. Fri, 10:30–12:30, WSI S101
Exercise to Experimental Physics 1 (MSE)
course documents
Assigned to modules:
UE 2 Eckmann, F.
Responsible/Coordination: Stutzmann, M.
dates in groups
FOPRA Experiment 08: High Resolution X-Ray Diffraction
current information
Assigned to modules:
PR 1 Stutzmann, M.
Assisstants: Hoffmann, T.
FOPRA Experiment 50: Photovoltaics
current information
Assigned to modules:
PR 1 Stutzmann, M.
Assisstants: Pantle, F.
Literature Seminar on Solid State Physics
Assigned to modules:
SE 2 Stutzmann, M. Wed, 13:00–14:30, WSI S101
Revision Course to Current Problems in Semiconductor Physics
Assigned to modules:
RE 2
Responsible/Coordination: Stutzmann, M.
Schottky-seminar
This course is not assigned to a module.
SE 2 Belkin, M. Brandt, M. Finley, J. Holleitner, A. Sharp, I. … (insgesamt 6) Tue, 17:15–18:00, WSI S101
Consultation Hour to Experimental Physics (MSE)
Assigned to modules:
RE 2 Stutzmann, M.
Instruction for the Advanced Lab Course (FOPRA)
eLearning course current information
Assigned to modules:
PR 0.1 Schönert, S. Stutzmann, M.
Assisstants: Hauptner, A.
singular or moved dates

Offered Bachelor’s or Master’s Theses Topics

Novel Nanowire Devices for the Optoelectronic Control of Color Centers in Silicon Carbide
Group III-nitride nanowires (NWs), namely GaN and its ternary alloys InxGa1-xN and AlxGa1-xN, have attracted increasing interest in device fabrication. Due to their 1D geometry and their high refractive index compared to air, the NWs are suitable as optical waveguides, especially for materials with a comparable refractive index like diamond or silicon carbide (SiC). The color center of these materials, e.g. nitrogen vacancies NV in diamond and silicon vacancies VSi in SiC, are both promising candidates as qubits for quantum computational applications. In detail, the NWs should work as nano-antenna for the optical read-out of the color centers and as nano-contacts for the electrical control of the charge states of the color centers. The aim of this work is the fabrication and characterization of (In,Ga)N NW LEDs for the optoelectronic control of VSi in SiC.
suitable as
  • Bachelor’s Thesis Physics
  • Master’s Thesis Condensed Matter Physics
  • Master’s Thesis Applied and Engineering Physics
Supervisor: Martin Stutzmann

Publications

Photocurrent spectroscopy of in-plane surface conductive diamond homostructures
Patrick Simon (author), Philipp Beck (author), Ankit Rathi (author), Martin Stutzmann (author), Jose A. Garrido (author)
2020-5-18
journal article
Physical Review B
URL: https://doi.org/10.1103/PhysRevB.101.205306
DOI: 10.1103/PhysRevB.101.205306
Sub-bandgap optical spectroscopy of epitaxial β-Ga2O3 thin films
Sijie Hao (author), Martin Hetzl (author), Viktoria F. Kunzelmann (author), Sonja Matich (author), Qinglin Sai (author), Changtai Xia (author), Ian D. Sharp (author), Martin Stutzmann (author)
2020-3-2
journal article
Applied Physics Letters
URL: https://doi.org/10.1063/1.5143393
DOI: 10.1063/1.5143393
Thermal characterization of thin films via dynamic infrared thermography
Anton Greppmair (author), Natalie Galfe (author), Katharina Amend (author), Martin Stutzmann (author), Martin S. Brandt (author)
2019-4
journal article
Review of Scientific Instruments
URL: https://doi.org/10.1063/1.5067400
DOI: 10.1063/1.5067400
Growth mechanisms of F4-TCNQ on inorganic substrates and nanostructures
H Schamoni (author), M Hetzl (author), T Hoffmann (author), K Stoiber (author), S Matich (author), M Stutzmann (author)
2018-11-9
journal article
Materials Research Express
URL: https://doi.org/10.1088/2053-1591/aaecb8
DOI: 10.1088/2053-1591/aaecb8
Photocurrent generation of biohybrid systems based on bacterial reaction centers and graphene electrodes
Réka Csiki (author), Simon Drieschner (author), Alina Lyuleeva (author), Anna Cattani-Scholz (author), Martin Stutzmann (author), Jose A. Garrido (author)
2018-10
journal article
Diamond and Related Materials
URL: https://doi.org/10.1016/j.diamond.2018.09.005
DOI: 10.1016/j.diamond.2018.09.005
A systematic investigation of radiative recombination in GaN nanowires: The influence of nanowire geometry and environmental conditions
Martin Hetzl (author), Max Kraut (author), Theresa Hoffmann (author), Julia Winnerl (author), Katarina Boos (author), Andreas Zeidler (author), Ian D. Sharp (author), Martin Stutzmann (author)
2018-7-21
journal article
Journal of Applied Physics
URL: https://doi.org/10.1063/1.5038802
DOI: 10.1063/1.5038802
Optical design of GaN nanowire arrays for photocatalytic applications
Julia Winnerl (author), Richard Hudeczek (author), Martin Stutzmann (author)
2018-5-28
journal article
Journal of Applied Physics
URL: https://doi.org/10.1063/1.5028476
DOI: 10.1063/1.5028476
Ethanol surface chemistry on MBE-grown GaN(0001), GaOx/GaN(0001), and Ga2O3(2¯01)
Sebastian L. Kollmannsberger (author), Constantin A. Walenta (author), Andrea Winnerl (author), Fabian Knoller (author), Rui N. Pereira (author), Martin Tschurl (author), Martin Stutzmann (author), Ueli Heiz (author)
2017-9-28
journal article
The Journal of Chemical Physics
URL: https://doi.org/10.1063/1.4994141
DOI: 10.1063/1.4994141
Electrochemical characterization of GaN surface states
Andrea Winnerl (author), Jose A. Garrido (author), Martin Stutzmann (author)
2017-7-28
journal article
Journal of Applied Physics
URL: https://doi.org/10.1063/1.4995429
DOI: 10.1063/1.4995429
Photo-induced changes of the surface band bending in GaN: Influence of growth technique, doping and polarity
Andrea Winnerl (author), Rui N. Pereira (author), Martin Stutzmann (author)
2017-5-28
journal article
Journal of Applied Physics
DOI: 10.1063/1.4983846

further publications (total of 662).

See ORCID profile of Martin Stutzmann as well.

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