Prof. Dr. Martin Krejci

Activities at the FHNW

Lecturer for Physics at the Institute of Mathematics and Natural Sciences FHNW
Head of the Physics group
Applied Research and Developement with industrial partners

Lectures

Heat and radiation
Mechanics
Electromagnetisms
Acoustics
Physics Lab for Energy and Environmental Engineers

Reseach interests

Semiconductor Technology
- Laser Diodes
- Photovoltaic cells and modules
Reliability and Failure Mode analysis of semiconductor components and modules
- Development of life test systems and procedures
- Development of accelerated reliability tests and concepts
Assembly technologies
- Materials Physics
- Multiphysics Modelling
- Design and verification

Profile

Since 2013
Professor of Physics at the FHNW

2010–2013
Head High Power Laser Development, II-VI Laser Enterprise AG(*) (Switzerland)

2005–2012
Project Leader High Power Laser Bars, II-VI Laser Enterprise AG(*) (Switzerland)

1999–2015
Senior Scientist Materials and Failure Mode Analysis, II-VI Laser Enterprise AG(*) (Switzerland)

(*) former company names: OCLARO, Bookham, Nortel Networks, JDS Uniphase,Unip

Publications and patents

Selected publications

N. Tiwari, M. Krejci, F.-J. Haug, H. Zogg, 12.8% efficiency Cu(In,Ga)xSey solar cell on a flexible polymer sheet, Progress in Photovoltaics: Research and Applications, 7, 393 (1999).
Krejci, A. N. Tiwari, H. Heinrich, P. Schwander, H. Zogg and G. Kostorz, Rotational twinning in heteroepitaxial CuInSe2 layers on (111) oriented Si substrates. J. Appl. Phys. 8, no.9, 1997, pp. 6100-6106.
Martin Krejci, Ayodhya N. Tiwari, Solarzellen zum Aufkleben und Rollen, NZZ Neue Zürcher Zeitung, Beilage Technik, 3. Nov. 1999.
Nadenau*, D. Hariskos*, H.-W. Schock*, M. Krejci, F.-J. Haug, A. N. Tiwari, H. Zogg, G. Kostorz, Microstructural study of the CdS/CuGaSe2 interfacial Region in CuGaSe2 thin film solar cells, Journal of Applied Physics 85, 534-542 (1999). *Institut für phys. Elektronik, Universität Stuttgart
N. Tiwari, M. Krejci, F.-J. Haug, H. Zogg, V. Zelezny and V. Vorlicek, Heteroepitaxy of CuInxSey: Material for high efficiency and stable thin film solar cells, J. Cryst. Growth, 201, 1057 (1999).
Paul Commin, René Todt, Martin Krejci, Rainer Bättig, Reinhard Brunner, Norbert Lichtenstein, Oclaro,, Next generation 9xx/10xx nm high power laser diode bars for multi-kilowatt industrial applications, Published in SPIE Proceeding Vol. 8605 (2013), 86050Y
Krejci, A. Heinrich, J. Müller, T. Bragagna, N. Lichtenstein, Miniaturized high power Er:YAG solid state laser pumped by a single laser diode bar, SPIE Proceedings Vol. 7912 (2011), 79121D.
Krejci, Y. Gilbert, J. Müller, R. Todt, S. Weiss, N. Lichtenstein, Power scaling of bars toward 85mW per 1μm stripe width reliable output power, SPIE Proceedings Vol. 7198 (2009), 719804.
P. Müller, H. Zogg, A. Fach, J. John, C. Paglino, A.N. Tiwari, M. Krejci, G. Kostorz*, Reduction of threading dislocation densities in heavily lattice mismatched PbSe on Si(111) by glide. Phys. Rev. Lett. 78, Nr. 14, pp. 3007-3010. *Institute of Applied Physics, ETH-Hönggerberg, CH-8093 Zürich, Switzerland

School

FHNW School of Engineering

The school offers degree programmes in Engineering, Computer Science, Leadership and Optometry. In research, we generate knowledge and solutions for industry and business.

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Prof. Dr. Martin Krejci

Prof. Dr. Martin Krejci

Activities at the FHNW

Lectures

Reseach interests

Profile

Publications and patents

School

FHNW School of Engineering

Contact