Generation of Gaseous Singlet Oxygen for Interaction Experiments
Chemické listy 110 (2016) 11-17.
Chemical Engineering & Technology 36 (2013) 1755-1763.
European Physical Journal D 66 (2012) 89-94.
Journal of Physics D: Applied Physics 44 (2011) 115204-115210.
Applied Physics B: Laser and Optics 100 (2010) 779-791.
Applied Physics B: Laser and Optics 100 (2010) 793-802.
IEEE Journal of Quantum Electronics 46 (2010) 1350-1353.
European Physical Journal D 54 (2009) 239-248.
Optics and Spectroscopy 107 (2009) 816-825.
Quantum Electronics 39 (11) (2009) 1023-1027.
Chemical Physics 345 (2008) 14-22.
Plasmachemical generation of atomic iodine for iodine lasers pumped by singlet oxygen
Chemické listy 102 (2008) 1327-1331.
Chemical Physics 334 (2007) 167-174.
Collection of Czechoslovak Chemical Communications 71 (5) (2006) 739-755.
Advances in development of chemical oxygen-iodine laser
Czech. J. Phys. 54 (2004) 561
Chemical oxygen-iodine laser using a new method of atomic iodine generation
IEEE J. Quantum Electron. 40 (5) (2004) 564
Development of COIL with chemical generation of atomic iodine
Appl. Phys. A-Mater. 77 (2003) 331
Chemical generation of atomic iodine for the chemical-oxygen iodine laser: Experimental results
Chem. Phys. 282 (2002) 147
Chemical generation of atomic iodine for chemical oxygen-iodine laser:Modeling of reaction systems
Chem. Phys. 269 (2001) 167
L. Juha, M. Pietriková, V. Hamplová, J. Kodymová, A. Müllerová, J. Krása, L. Láska, O. Špalek, P. Kubát, I. Stibor, E. Koudoumas, S. Couris
The role of the oxygen molecule in the photolysis of fullerenes
Fullerene Science and Technology. Roč. 8, 4-5 (2000), s. 289-318
L. Juha, M.Fárníková, V. Hamplová, J. Kodymová, A. Müllerová, J. Krása, L. Láska, O.Špalek, P. Kubát, I. Stibor, E. Koudoumas, S. Couris
The role ofthe oxygen molecules in the photolysis of fullerenes
Fuller. Sci. Technol. 8 (2000) 289
Experimentalverification of the Einstein A-coefficient in the chemicaloxygen-iodine laser
J. Phys. B-At. Mol. Opt. Phys. 32 (1999) 1885
Performancecharacteristics of jet-type generator of singlet oxygen forsupersonic chemical oxygen-iodine laser
Jpn. J. Appl. Phys. 37 (1998) 117
Pevnolátkové,plynové a kapalinové lasery (podle T.V. Higginse, LaserFocus World 1995)
Čs. čas. fyz. 47 (1997) 27
L. Juha, M. Farniková, V. Hamplová, J. Kodymová, J. Krása, L. Láska, O. Špalek, P. Kubát, I.Stibor, D. Slezák, E. Koudoumas, S. Couris
Therole of Oxygen Molecules in the Photolysis of Fullerenes
J. Chem. Soc., Perkin Trans. 2 (1996)
L. Juha, V. Hamplová, M. Fárníková, J. Kodymová, O. Špalek, J. Krása, L. Láska, P.Kubát, E. Koudoumas, S. Couris, I. Stibor
Photochemicalreactivity of fullerenes dissolved in different solvents
Proc. Electrochem. Soc. 96-100 (1996) 363
Measurementsof peak enhancement and power conservation in magnetically gainswitched chemical oxygen-iodine laser
IEEE J. Quantum Electron. 30 (1994) 2391
Chemickélasery - princip a možnosti využití
Čs. čas. fyz. 44 (1994) 103
Reactivity offullerenes with chemically generated singlet oxygen
J. Chem. Soc., Chem. Commun. (1994) 2437
Experimentalstudy of gain and output coupling characteristics of cw chemicaloxygen-iodine laser
IEEE J. Quantum Electron. 27 (1991) 1265
Magneticmodulation of gain in chemical oxygen-iodine laser
IEEE J. Quantum Electron. 27 (1991) 1262
Chemicaloxygen-iodine laser in periodically pulsed regime of generation
J. Phys. IV 1 (1991) 629
Influence ofhydrostatic pressure on O2(1$Delta$g) yield in a bubbler-type chemicalgenerator
J. Appl. Phys. 62 (1987) 2208