Assistant Prof. Dr. Emir Karamehmedovic
(Resume, February 2013)
 |
Assistant Prof. Dr. Emir Karamehmedović |
|
|
| Office: +387 33 957 207 |
International University of Sarajevo |
|
|
| Fax: +387 33 957 105 |
Hrasnicka cesta 15, 71000 |
|
|
| e-mail: ekaramehmedovic@ius.edu.ba |
Sarajevo, Bosnia and Herzegovina |
|
|
| |
|
|
|
| |
|
|
|
EDUCATION
|
Degree |
Faculty/Program |
University |
Year |
|
PhD |
Research Center COM |
Technical University of Denmark, Denmark |
2006 |
|
MSc |
EE, Telecommunications |
Technical University of Denmark, Denmark |
2003 |
|
BA |
EE |
Technical University of Denmark, Denmark |
|
ACADEMIC EXPERIENCE
|
Title |
Faculty/Program/Department |
University / Employer |
Period |
|
Assistant Prof. |
Electrical and Electronics Engineering |
International University of Sarajevo, BiH |
2010-Present |
|
Quality Manager |
Instrumentation / Automation DPT |
SIMECO.SYSTEMS, Sarajevo, BiH |
2008-Present |
|
Post.doc. Researcher |
Solid-state Lasers |
Risø National Laboratory, Roskilde, Denmark |
2006-2008 |
|
Teacher Assistant |
Research Center COM |
DTU, Kgs. Lyngby, Denmark |
2003-2006 |
|
PhD Student |
Researcher |
Lios Technology Gmbh, Collogne, Germany |
2004 |
|
Teacher Assistant |
|
DTU, Kgs. Lyngby, Denmark |
2002 |
JOURNAL PAPERS
- Mirza Karamehmedović, Poul-Erik Hansen, Kai Dirscherl, Emir Karamehmedović, and Thomas Wriedt, “Profile estimation for Pt submicron wire on rough Si substrate from experimental data“, Optics Express, 20, 21678-21686 (2012)
- Christian Pedersen, Emir Karamehmedović, Jeppe Dam Seidlin and Peter Tidemand-Lichtenberg, "Enhanced 2D Image upconversion using solid-state lasers", Optics Express, 17, 20885-20890 (2009)
- Emir Karamehmedović, Christian Pedersen, Ole Bjarlin Jensen and Peter Tidemand- Lichtenberg, "Nonlinear beam clean-up using resonantly enhanced sum-frequency mixing", App. Phys B:Lasers and Optics, (2009)
- Emir Karamehmedović, Christian Pedersen, Martin Thalbitzer Andersen and Peter Tidemand-Lichtenberg, "Efficient visible light generation by mixing of a solid-state laser and a tapered diode laser", Optics Express, 15, 12240-12245 (2007)
- Peter Tidemand-Lichtenberg, Martin Thalbitzer Andersen, Preben Buchhave, Emir Karamehmedović, Christian Pedersen, Sandra Johansson, Shunhua Wang and Fredrik Laurell, "Nonlinear cavity dumping of high finesse frequency mixing module" , Optics Express 15, 9799-9803 (2007)
|
CONFERENCE CONTRIBUTIONS
- Skejć A., Balić A., Jasarević H., Namas T., Selman S., Karamehmedović E., Karić E., Buco J., “Observation and numerical modeling of MSE test wall constructed near Motorway 5C section Drivusa-Gorica in Bosnia and Herzegovina“, Geosynthetics 2013, Long Beach, California, USA
- Mirza Karamehmedović, Poul Erik Hansen, Emir Karamehmedović,
Thomas Wriedt, “Fast cross section reconstruction for metallic sub-micron wires on a
substrate“, E-MRS Spring Symposium 2012, Strasbourg, France
- Christian Pedersen, Emir Karamehmedović, Jeppe Dam Seidlin, Perben Buchhave and Peter Tidemand-Lichtenberg, "2D Nonlinear Image Up-Conversion and Filtering Using Enhanced Sum Frequency Generation", Frontiers in Optics 2009, San Jose, California, USA
- Emir Karamehmedović, Yoshihide Fujimoto, Shintaro Hisatake, Hidehisa Shiomi, Junichi Takahara, Hiroshi Murata, Tadao Nagatsuma and Yasuyuki Okamura, "Generation of GHz and THz waves using the beat signal from two tuneable diode lasers", AMP 2008, Osaka, Japan
- Emir Karamehmedović, Christian Pedersen, Martin Thalbitzer Andersen and Peter Tidemand-Lichtenberg, "300 mW of coherent light at 488 nm using a generic approach", Photonics West 2008, San Jose, California, USA
- Emir Karamehmedović, Thomas Feuchter, and Palle Jeppesen, "Optimum pump power in distributed temperature sensing by spontaneous Raman scattering using IOFDR", Optics of High Technology Material Science, 2005, Kiev, Ukraine.
- Emir Karamehmedović, Paul Childs, Trevor Whitbread, Allan C. L. Wong, N. Gowripalan, and Gang-Ding Peng, "Field Test of Strain Fluctuation in the Experimental Reactive Powder Concrete Bridge at Shepherd's Creek ", BGPP/ACOFT 2005, Sydney, Australia
- Emir Karamehmedović, Thomas Feuchter, “Improvements in distributed fibre -optic temperature sensing using
combined SMF and DCF“
- Emir Karamehmedović, Thomas Feuchter, and Palle Jeppesen, "Extended range distributed fibre-optic temperature sensing using combined SMF and DCF", Photonics 2004, Kochi, India.
- Emir Karamehmedović, Ulrich Glombitza, Dino Simonits, "Fibre-Optic Distributed Temperature Sensing Using IOFDR", European Workshop on Optical Fibre Sensors 2004, Santander, Spain, 2004
- Emir Karamehmedović, Ulrich Glombitza, Dino Simonits, "Fiber-optic Temperature Sencor Based on Incoherent Optical Frequency Domain Reflectometry", Photonics West 2004, San Jose, California, USA, 2004
- Emir Karamehmedović, Anders Bjarklev, "An analysis of radial periodic waveguide", DOPS, Århus, Denmark, 2002
|
POSTER PRESENTATIONS
- Emir Karamehmedović, Christian Pedersen and Peter Tidemand-Lichtenberg, "Infrared image up conversion using sum frequency generation", poster presentation at DTU, 2008
- Martin T. Andersen, Peter Tidemand-Lichtenberg, Emir Karamehmedović, Christian Pedersen, "Comparison of a Ti:S Laser and a Tapered External Cavity Diode Laser for Sum Frequency Generation in a High-Finesse 1342 nm Nd:YVO4 Laser", ASSP, 2008, Nara, Japan
- Emir Karamehmedović, Christian Pedersen, Martin Thalbitzer Andersen and Peter Tidemand-Lichtenberg, "Sum Frequency Generation in a High‐Finesse 1342 nm Nd:YVO4 Laser", poster presentation at DOPS (2008)
- Emir Karamehmedović, Christian Pedersen, Martin Thalbitzer Andersen and Peter Tidemand-Lichtenberg, "300 mW of coherent light at 488 nm using a generic approach", Biophotonics, Hven, Sweden, 2007
|
PATENTS
- Co-author (inventor) on a patent “Optical arrangement and method“ - a system that can be used to visualise IR, deep mid-IR or UV images in real time, using nonlinear optical phenomena. (2008) Patent no: EP 2319141, US 20110228807
- Participator in preparation of a patent dealing with an improvement of a linear temperature sensor. (2005)
- Author of a patent application for a dielectric waveguide for GHz waves that may be used in cryogenic environment.
|
|