Ablation of single-crystalline cesium iodide by extreme ultraviolet capillary-discharge laser

1. Chrisey, D., & Hubler, G. (1994). Pulsed laser deposition of thin films. New York: Wiley.Search in Google Scholar

2. Fernández-Lima, F., Collado, V., Ponciano, C., Farenzena, L., Pedrero, E., & da Silveira, E. (2003). Laser ablation of CsI analyzed by delayed extraction. Appl. Surf. Sci., 217(1/4), 202–209. DOI: 10.1016/s0169-4332(03)00547-6.10.1016/S0169-4332(03)00547-6Search in Google Scholar

3. Brendel’, V. M., Bukin, V. V., Garnov, S. V., Bagdasarov, V. Kh., Denisov, N. N., Garanin, S. G., Terekhin, V. A., & Trutnev, Y. A. (2012). Fabrication of alkali halide UV photocathodes by pulsed laser deposition. Quantum Electron., 42(12), 1128–1132. DOI: 10.1070/qe2012v042n12abeh014916.10.1070/QE2012v042n12ABEH014916Search in Google Scholar

4. Breskin, A. (1996). CsI UV photocathodes: history and mystery. Nucl. Instrum. Methods Phys. Res. Section A-Accel. Spectrom. Detect. Assoc. Equ., 371(1/2), 116–136. DOI: 10.1016/0168-9002(95)01145-5.10.1016/0168-9002(95)01145-5Search in Google Scholar

5. Nikl, M. (2006). Scintillation detectors for x-rays. Meas. Sci. Technol., 17(4), R37–R54. DOI: 10.1088/0957-0233/17/4/r01.10.1088/0957-0233/17/4/R01Search in Google Scholar

6. Jaeglé, P., Sebban, S., Carillon, A., Jamelot, G., Klis-nick, A., Zeitoun, P., Rus, B., Nantel, M., Albert, F., & Ros, D. (1997). Ultraviolet luminescence of CsI and CsCl excited by soft x-ray laser. J. Appl. Phys., 81(5), 2406–2409. DOI: 10.1063/1.364246.10.1063/1.364246Search in Google Scholar

7. Hada, M., Zhang, D., Pichugin, K., Hirscht, J., Koch-man, M., Hayes, S. A., Manz, S., Gengler, R. Y. N., Wann, D. A., Seki, T., Moriena, G., Morrison, C. A., Matsuo, J., Sciaini, G., & Miller, R. J. D. (2014). Cold ablation driven by localized forces in alkali halides. Nature Commun., 5(1), 3863–3870. DOI: 10.1038/ncomms4863.10.1038/ncomms486324835317Search in Google Scholar

8. Juha, L., Bittner, M., Chvostova, D., Krasa, J., Kozlov, M., Pfeifer, M., Polan, J., Präg, A. R., Rus, B., Stupka, M., Feldhaus, J., Letal, V., Otcenasek, Z., Krzywinski, J., Nietubye, R., Pelka, J. B., Andrejczuk, A., Sobierajski, R., Ryc, L., Boody, F. P., Fiedorowicz, H., Bartnik, A. S., Mikolajczyk, J., Rakowski, R., Kubat, P., Pina, L., Horvath, M., Grisham, M. E., Vaschenko, G. O., Menoni, C. S., & Rocca, J. J. (2005). Short-wavelength ablation of molecular solids: pulse duration and wavelength effects. J. Microlithogr. Microfabr. Microsyst., 4(3), 033007. DOI: 10.1117/1.2037467.10.1117/1.2037467Search in Google Scholar

9. Juha, L., Bittner, M., Chvostova, D., Krasa, J., Otcenasek, Z., Präg, A., Ullschmied, J., Pientka, Z., Krzywinski, J., Pelka, J. B., Wawro, A., Grisham, M. E., Vaschenko, G., Menoni, C. S., & Rocca, J. J. (2005). Ablation of organic polymers by 46.9-nm-laser radiation. Appl. Phys. Lett., 86(3), 034109. DOI: 10.1063/1.1854741.10.1063/1.1854741Search in Google Scholar

10. Heinbuch, S., Grisham, M., Martz, D., & Rocca, J. (2005). Demonstration of a desk-top size high repetition rate soft x-ray laser. Opt. Express, 13(11), 4050–4055. DOI: 10.1364/opex.13.004050.10.1364/OPEX.13.004050Search in Google Scholar

11. Chung, P., Talbor, L., & Touryan, K. (1975). Electric probes in stationary and flowing plasmas. Berlin-Heidelberg-New York: Springer-Verlag.10.1007/978-3-642-65886-0Search in Google Scholar

12. Pira, P., Burian, T., Kolpaková, A., Tichý, M., Kudrna, P., Daniš, S., Juha, L., Lancok, J., Vysin, L., Civis, S., Zelinger, Z., Kubat, P., & Wild, J. (2014). Langmuir probe measurement of the bismuth plasma plume formed by an extreme-ultraviolet pulsed laser. J. Phys. D-Appl. Phys., 47(40), 405205. DOI: 10.1088/0022-3727/47/40/405205.10.1088/0022-3727/47/40/405205Search in Google Scholar

13. Vysin, L., Burian, T., Chalupsky, J., Grisham, M., Hajkova, V., Heinbuch, S., Jakubczak, K., Martz, D., Mocek, T., Pira, P., Polan, J., Rocca, J. J., Rus, B., Sobota, J., & Juha, L. (2009). Characterization of focused beam of desktop 10-Hz capillary-discharge 46.9-nm laser. Proc. SPIE, 7361, 73610O.10.1117/12.822759Search in Google Scholar

14. Nečas, D., & Klapetek, P. (2012). Gwyddion: An open-source software for SPM data analysis. Centr. Eur. J. Phys., 10(1), 181–188. DOI: 10.2478/s11534-011-0096-2.10.2478/s11534-011-0096-2Search in Google Scholar

15. Blejchař, T., Nevrlý, V., Vašinek, M., Dostál, M., Kozubková, M., Dlabka, J., Stachon, M., Juha, L., Bitala, P., Zelinger, Z., Pira, P., & Wild, J. (2016). Desorption/ ablation of lithium fluoride induced by extreme ultra-violet laser radiation. Nukleonika, 61(2), 131–138. DOI: 10.1515/nuka-2016-0023.10.1515/nuka-2016-0023Search in Google Scholar

16. Ševčíková, K., Nehasil, V., Vorokhta, M., Haviar, S., Matolín, V., Matolínová, I., Masek, K., Pis, I., Kobayashi, K., Kobata, M., Nagata, T., Matsushita, Y., & Yoshikawa, H. (2015). Altering properties of cerium oxide thin films by Rh doping. Mater. Res. Bull., 67, 5–13. DOI: 10.1016/j.materresbull.2015.02.059.10.1016/j.materresbull.2015.02.059Search in Google Scholar

17. Henke, B. L., Gullikson, E. M., & Davis, J. C. (1993). X-ray interactions: photoabsorption, scattering, transmission, and reflection at E=50-30,000 eV, Z = 1-92. Atom. Data Nucl. Data Tables, 54(2), 181–342.10.1006/adnd.1993.1013Search in Google Scholar

18. Pira, P., Burian, T., Vysin, L., Chalupsky, J., Lancok, J., Wild, J., Strizik, M., Zelinger, Z., Rocca, J. J., & Juha, L. (2011). Ablation of ionic crystals induced by capillary-discharge XUV laser. Proc. SPIE, 8077, 807719.10.1117/12.890406Search in Google Scholar

19. Ritucci, A., Tomassetti, G., Reale, A., Arrizza, L., Zuppella, P., Reale, L., Palladino, L., Flora, F., Bonfigli, F., Faenov, A., Pikuz, T., Kaiser, J., Nilsen, J., & Jankowski, A. F. (2006). Damage and ablation of large bandgap dielectrics induced by a 46.9 nm laser beam. Optics Lett., 31(1), 68–70. DOI: 10.1364/ol.31.000068.10.1364/OL.31.000068Search in Google Scholar

20. Budylin, B., & Vorobev, A. (1964). Effect of radiation on ionic structures. Jerusalem: Israel Program for Scientific Translations.Search in Google Scholar

21. Haglund, R. (1996). Microscopic and mesoscopic aspects of laser-induced desorption and ablation. Appl. Surf. Sci., 96/98, 1–13. DOI: 10.1016/0169-4332(95)00371-1.10.1016/0169-4332(95)00371-1Search in Google Scholar

22. Chalupský, J., Juha, L., Hájková, V., Cihelka, J., Vyšín, L., Gautier, J., Hajdu, J., Hau-Riege, S. P., Jurek, M., Krzywinski, J., London, R. A., Papalazarou, E., Pelka, J. B., Rey, G., Sebban, S., Sobierajski, R., Stojanovic, N., Tiedtke, K., Toleikis, S., Tschentscher, T., Valentin, C., Wabnitz, H., & Zeitoun, P. (2008). Non-thermal desorption/ablation of molecular solids induced by ultra-short soft x-ray pulses. Opt. Express, 17(1), 208–217. DOI: 10.1364/oe.17.000208.10.1364/OE.17.00020819129890Search in Google Scholar

23. Frolov, O., Kolacek, K., Schmidt, J., Straus, J., Choukourov, A., & Pira, P. (2016). Ablation of LiF and CsI by EUV nanosecond laser pulse. In International Conference on X-ray Lasers (pp. 327–331). Cham, Switzerland: Springer.10.1007/978-3-319-73025-7_49Search in Google Scholar