Tomáš Martan

Ing., Ph. D.

Tel: +420224352264

Fax: +420-22431 0792

E-mail: martant(at)fel.cvut.cz

ORCID: 0000-0002-1735-4644

RVVI vedidk : 6803504



Teaching

B2B34OZD – Optical sources and detectors

B2M34PIO – Planar integrated optics

B2B34ELPA – Electron Devices

B1B34EPS – Elektronics for Heavy-current engeneering


Research Activities

A member of Optoelectronics Group at the Department

  • Photonic structures based on specialty optical fibers (microstructured optical fibers, chalcogenide fibers, fiber tapers, fiber tips for local detection of biological quantities)
  • Design and development of fibre structures on the Vytran GPX-3000 device
  • Fiber-optic sensors for biological and industrial applications
  • Design, construction, characterization, optimization and implementation of fiber optic sensor systems for medical applications (robotic bed – patient vital signs monitoring, rehabilitation)
  • Special opto-fibre connectors for high power transmission (to use in extreme conditions)
    PoF (Power over Fiber) systems – power conversion by optical fibers in the NIR band
  • Nonlinear fiber optics, coupling efficiency of optical sources to single-mode fibers in the visible region of the spectrum, ….

Training

  • Summer School on Optical fiber sensors: from research to real world, The European COST Action TD1001 OFSeSa, Chandolin in the Swiss Alps, Switzerland (2014)
  • Summer School on “Optical Fibre Sensing” COST TD1001 University of Madeira, Funchal, Portugal (2012)
  • ASCOS 2009 – Optical Chemical Sensors for Environmental and Food Safety. The Advanced Study Course on Optical Sensors – ASCOS – ECTS accredited European initiative to establish an education, discussion and contact platform for young researchers working in the strongly growing field of optochemical (bio)sensors and (bio)sensor arrays, Madrid, Spain (2009)

Projects

TK05020032 – New advanced integrated fiber optic connectors for demanding applications, The Technology Agency of the Czech Republic – THETA 5, 2023-2025.

FW06010161 – Fiber optic elements with new standards for optical connectors for safety-intensive applications, The Technology Agency of the Czech Republic – TREND 6, 2023-2025.

• FV10788 – Fiber bundle delivery of high energy laser pulses technology, MPO, 2016-2019.
• TA04010220 – Wideband Optical Source Based on Soft-glass Fibers, TA ČR, 2014-2017.
• TA03010060 – Fiber optic detection of liquids, TA ČR, 2013-2016.
• Eureka E! (LF13015) – Fibre Optic UV Sensing, MŠMT, 2012-2015.
• Eureka E!5839 (LF11001) – Fibre Optic Gas Sensing, MŠMT, 2011-2014.
• COST TD1001 – Novel and Reliable Optical Fibre Sensor Systems for Future Security and Safety Applications, MŠMT, 2010–2014.
• Eureka E!3828 (OE08021) – Microstructured optical fiber components for optical Communications, MŠMT, 2008-2011.
• GP102/08/P639 – Tapered optical fibers for local detection of physical-chemical values, GA ČR, 2008-2010.
• GA102/08/1719 – Specialty microstructured optical fibers with increased sensitivity for chemical and biochemical detection, GA ČR, 2008-2010.
• LC06034 – Centre of Excellence, Regulation of morphogenesis of plant cells and organa, MŠMT, 2006-2011.


Publications and National patents

Selected publications:

  • Martan, T.; Prajzler, V.; Mareš, D.: Local detection of gaseous carbon dioxide using optical fibers and fiber tapers of single-cell dimensions, Sensors and Actuators B: Chemical 375, 132887, 2023, DOI 10.1016/j.snb.2022.132887. (Q1, D1, IF: 9.221)
  • Mares, D.; Prajzler, V.; Martan T.; Jeřábek V.: Hybrid polymer–glass planar Bragg grating as a temperature and humidity sensor, Optical and Quantum Electronics 54,2022. (Q2, IF: 2,794)
  • Komanec, M.; Němeček, T.; Vidner, P.; Martan, T.; Lahodný, F.; Zvánovec, S.: Structurally-modified tapered optical fiber sensors for long-term detection of liquids, OPTICAL FIBER TECHNOLOGY, 47 (187-191), 2019.
  • Němeček, T.; Komanec, M.; Nelsen, B.; Martan, T.; Suslov, D.; Hartmann, P.; Zvánovec, S.: Experimentally and analytically derived generalized model for the detection of liquids with suspended-core optical fibers, OPTICAL FIBER TECHNOLOGY, 45 (295-299) 2018.
  • Martan T., Nemecek T., Komanec M., Ahmad R., Zvanovec S. Refractometric detection of liquids using tapered optical fiber and suspended core microstructured fiber: A comparison of methods, Applied Optics 56 (9), pp. 2388-2396, 2017.
  • Nemecek T., Komanec M., Martan T., Ahmad R., Zvanovec S., Suspended-core microstructured fiber for refractometric detection of liquids, Applied Optics 54(30), pp. 8899-8903, 2015.
  • Komanec M., Martan T., Nemecek T. Zvanovec S. Multimode fiber tapers for reproducible refractometric liquid detection, Optical Engineering 54(4), p. 047102-1-047102-6, 2015.
  • Martan T., Aubrecht J., Podrazký O., Matějec V., Kašík I., Detection of hydrocarbons using suspended core microstructured optical fiber, Sensors and Actuators, B: Chemical 202, pp. 123-128, 2014.
  • Komanec M., Skoda P., Sistek J., Martan T., Data transparent and polarization insensitive all-optical switch based on fibers with enhanced nonlinearity, Radioengineering 23(3), p. 768-775, 2014.
  • Kašík I., Podrazký O., Mrázek J. Martan T. Matějec V. Hoyerová K. Kamínek M. In vivo optical detection of pH in microscopic tissue samples of Arabidopsis thaliana, Materials Science and Engineering C 33 (8), 2013.
  • Kasik I., Mrazek J., Martan T., Pospisilova M., Podrazky O., Matejec V, Hoyerova K., Kaminek M., Fiber-optic pH detection in small volumes of biosamples, Analytical and Bioanalytical Chemistry 398(5), 2010.
  • Kasik I., Martan T., Podrazky O., Mrazek J., Pospisilova M., Matejec V., Local real-time detection of pH using fibre tapers, Sensors, vol. 7356, pp. 3-8, 2009.

BooksNovotný K., Martan T., Šístek J.: Systems for optical communication, In Czech, Publishing house CTU in Prague, 2007.

Patents:

Prajzler, V.; Štefl, J.; Martinek, P.; Martan, T.; Pavlů, P.: Systém pro optickou datovou komunikaci a přenos optické energie určené pro přeměnu na elektrickou energii, Patent CZ 36343, 2022.

Martan, T.; Kopacek, I.: Device for quick connection and disconnection of optical and/or electrical connectors, Patent CZ 308707, 2021.

Curriculum Vitae