Seznam citací mých vlastních publikací

1. STATISTIKA CITACÍ
2. CITACE ČLÁNKŮ PUBLIKOVANÝCH V ČASOPISECH
3. CITACE ČLÁNKŮ PUBLIKOVANÝCH VE SBORNÍCÍCH
4. OSTATNÍ CITACE

Počet citací článků publikovaných v časopisech: 229
Počet citací článků publikovaných ve sbornících: 15
Počet citací, které neuvádějí přesný zdroj mých prací:: 21
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CITACÍ CELKEM: 265

Autrata R., Schauer P., Kvapil Jos., Kvapil Ji.: A single crystal of
YAG:Ce - new fast scintillator in SEM. J. Phys E: Sci. Instrum. 11 (1978), p. 707. Práce, které uvádějí citaci:

1. Comins, N.R.; Thirlwall, J.T.: Quantitative Studies and Theoretical Analysis of the Performance of the Scitillation Electron Detector, J. Microsc. (1981) 124, p. 119
2. Seiler, H.: Secondary Electron Emission in the Scanning Electron Microscope, J. Appl. Phys. (1983) 54, p. R1
3. Kvapil, J.; Kvapil, J.; Kubelka, J.; Autrata, R.: The Role of Iron Ions in YAG and YAP, Cryst. Res. Technol. (1983) 18/1, p. 127
4. Walther, P.; Kriz, S,; Muller, M,; Ariano, B.H.; Brodbeck, U.; Ott, P: Detection of Protein A Gold 15 nm Marked Surface Antigens by Backscattered Electrons, SEM (1984) (1984) III, p. 1257-1266
5. Pawley, J.: Low Voltage Scanning Electron Microscopy, J. Microsc. (1984) 136, p. 45
6. Robertson, J.M.; vanTol, M.W.: Cathodoluminescent Garnet Layers, Thin Solid Films (1984) 114, p. 221
7. Egerton, R.F.: Parallel-Recording System for Electron Energy Loss Spectroscopy (EELS), J. Electron Microsc. Technique (1984) 1, p. 37
8. Autrata, R.: A Double Detector System for BSE and SE Imaging, Scanninig (1984) 6, p. 174
9. Bauer, B.; Egg, B.: An Optimised Backscattered Electron Detector for the Scanning Electron Microscope, Pract. Met. (1984) 21, p. 460
10. Craven, A.J.; Buggy, T.W.: Correcting Electron Energy Loss Spectra for Artefacts Introduced by a Serial Data Collection System, J. Microsc. (1984) 136/2, p. 227
11. Oatley, C.W.: The Detection Quantum Efficiency of the Scintillator/Photomultiplier in the Scanning Electron Microscope, J. Microsc. (1985) 139, p. 153
12. Mares, J.: Energy Transfer in YAlG:Nd Codoped with Ce, Czech. J. Phys. B (1985) B35/8, p. 883
13. Autrata, R.; Walther, P.; Kriz, S.; Muller, M.: A BSE Scintillation Detector in the (S)TEM, Scanning (1986) 8, p. 3
14. Mares, J.; Jacquier, B.; Pedrini, C.; Boulon, G.: Energy Transfer Mechanisms Between Ce3+ and Nd3+ in YAG:Nd, Ce at Low Temperature, Rev. Phys. Appl. (1987) 22/2, p. 145
15. Globus, M.E.; Valbis, Ja.A.: Ocenka rabocevo diapazona osnovnych parametrov rentgenovskich detektorov iz novych scintilljacionnych materialov, Izmer. Tekh. (1988) 31, p. 54
16. Niegrig, H.: Recent Developments in Backscattered Electron Imaging, Proc. Eur. Congr. Electron Microsc. - EUREM 88, York (1988) 1, p. 225
17. Mares, J.A.; Jacquier, B.; Pedrini, C.; Boulon, G.: Fluorescence Decays and Lifetimes of Nd3+, Ce3+ and Cr3+ in YAG, Czech. J. Phys. B (1988) B38/7, p. 802-816
18. Niedrig H: Recent Developments in Backscattered Electron Imaging, Inst Phys Conf Ser (1988) 93, p. 225-230
19. Autrata, R.: Backscattered Electron Imaging Using Single Crystal Scintillator Detectors, Scanning Microsc. (1989) 3/3, p. 739
20. Autrata, R.: A Modification of the ET Secondary-Electron Detector with a Single-Crystal Scintillator, Scanning (1990) 12/3, p. 119-125
21. Viktorov LV, Skorikov VM, Zhukov VM, Shulgin BV: Inorganic Scintillation Materials, Inorg Mater+ (1991) 27/10, p. 1699-1722
22. Pawley, J.B.: Lvsem for High-Resolution Topographic and Density Contrast Imaging, Adv Electron El Phys (1992) 83, p. 203-274
23. Arii, T.; Yoshimura, N.; Kamiya, Y.: Intensity Measurement of High-Voltage Electron-Microscopic Images by YAG-TV Recording Systems, J. Electron. Microsc. (1993) 42/2, p. 55-63
24. Daberkow, I.; Herrmann, K.H.; Lenz, F.: A Configurable Angle-Resolving Detector System in STEM, Ultramicroscopy (1993) 50/1, p. 75-82
25. Dorenbos, P.; Visser, R.; Vaneijk, C.W.E.; Khaidukov, N.M.; Korzhik,: Scintillation Properties of Some Ce(3+) and Pr(3+) Doped Inorganic Crystals, IEEE Trans Nucl Sci (1993) 40/4 Pa, p. 388-394
26. Visser, R.: Energy Transfer in Fluoride Scintillators, PhD. Thesis, Delft University of Technology, Faculty of Applied Physiscs, Radiation Tec (1993) p. 1-183
27. Hejna, J.: Detection of topographic contrast in the scanning electron microscope at low and medium resolution by different detectors and detector systems, Scanning Microsc (1994) 8/2, p. 143-164
28. Vaneijk CWE, Andriessen J, Dorenbos P, Visser R: Ce(3+) Doped Inorganic Scintillators, Nucl Instrum Meth A (1994) 348/2-3, p. 546-550
29. Zuo, J.M.: Electron detection characteristics of slow-scan CCD camera, Ultramicroscopy (1996) 66/1-2, p. 21-33
30. Cramer RM, Ebinghaus V, Heiderhoff R, Balk LJ: Near-field detection cathodoluminescence investigations, J Phys D Appl Phys (1998) 31/15, p. 1918-1922
31. Guillot-Noel O, de Haas JTM, Dorenbos P, van Eijk CWE, Kramer K, Gude: Optical and scintillation properties of cerium-doped LaCl3, LuBr3 and LuCl3, J Lumin (1999) 85/1-3, p. 21-35
32. Frank, L: Advances in scanning electron microscopy, Advances In Imaging And Electron Physics, Vol 123; ADVANCES IN IMAGING AND ELECTRON PHY (2002) 123, p. 327-373
33. Oatley, CW: The detective quantum efficiency of the scintillator/photomultiplier in the scanning electron microscope, Advances In Imaging And Electron Physics, Vol 133; ADVANCES IN IMAGING AND ELECTRON PHY (2004) 133, p. 419-436
34. Nijdam, TJ; Jeurgens, LPH; Sloof, WG: Promoting exclusive alpha-Al2O3 growth upon high-temperature oxidation of NiCrAl alloys: experiment versus model predictions, Acta Mater. (2005) 53/6, p. 1643-1653
35. Singh, V; Tiwari, M: Ce3+ and Tb3+ emission in CaS phosphors, Indian J. Phys. (2005) 79/1, p. 51-53
36. Wang, CL; Solodovnikov, D; Lynn, KG: Point defects in Ce-doped Y3Al5O12 crystal scintillators, Phys. Rev. B (2006) 73/23, p. Lynn,
37. Nijdam, TJ; van der Pers, NM; Sloof, WG: Oxide phase development upon high temperature oxidation of gamma-NiCrAl alloys, Mater. Corros. (2006) 57/3, p. 269-275
38. Nijdam, TJ; Kwakernaak, C; Sloof, WG: The effects of alloy microstructure refinement on the short-term thermal oxidation of NiCoCrAlY alloys, Metall. Mater. Trans. A-Phys. Metall. Mater. Sci. (2006) 37A/3, p. 683-693
39. Kwakernaak, C; Nijdam, TJ; Sloof, WG: Microstructure refinement of NiCoCrAlY alloys by laser surface melting, Metall. Mater. Trans. A-Phys. Metall. Mater. Sci. (2006) 37A/3, p. 695-703
40. Nikl, M; Laguta, VV; Vedda, A: Energy transfer and charge carrier capture processes in wide-band-gap scintillators, Phys. Status Solidi A-Appl. Mat. (2007) 204/3, p. 683-689
41. Nikl, M; Vedda, A; Laguta, VV: Energy transfer and storage processes in scintillators: The role and nature of defects, Radiat. Meas., Spec. (2007) 42/4-5/, p. 509-514
42. Vandendael, I; Sloof, WG; Steenhaut, O; Hubin, A; Vereecken, J: Quantitative determination of the composition of nitrided layers on iron using AES, Surf. Interface Anal. (2007) 39/6, p. 519-527
43. Nikl, M; Vedda, A; Fasoli, M; Fontana, I; Laguta, VV; Mihokova, E; Pejchal, J; Rosa, J; Nejezchleb, K: Shallow traps and radiative recombination processes in Lu3Al5O12 : Ce single crystal scintillator, Phys. Rev. B (2007) 76/19, Article Number: 195121
44. Nijdam, TJ; Sloof, WG: Effect of Y distribution on the oxidation kinetics of NiCoCrAlY bond coat alloys, Oxid. Met. (2008) 69/1-2, p. 1-12
45. Nikl, M; Mihokova, E; Pejchal, J; Vedda, A; Fasoli, M; Fontana, I; La: Scintillator materials - Achievements, opportunities, and puzzles, IEEE Trans. Nucl. Sci., Part. (2008) 55/P/3, p. 1035-1041
46. Fasoli, M; Fontana, I; Moretti, F; Vedda, A; Nikl, M; Mihokova, E; Zo: Shallow traps in YAlO3 : Ce single crystal perovskites, IEEE Trans. Nucl. Sci., Part. (2008) 55/P/3, p. 1114-1117
47. Nijdam, TJ; Sloof, WG: Microstructural evolution of a MCrAlY coating upon isothermal annealing, Mater. Charact. (2008) 59/12, p. 1697-1704
48. Ogino, H; Yoshikawa, A; Nikl, M; Mares, JA; Shimoyama, JI; Kishio, K: Growth and optical properties of Lu-3(Ga,Al)(5)O-12 single crystals for scintillator application, J. Cryst. Growth (2009) 311/3, p. 908-911
49. Zorenko, Y; Mares, JA; Kucerkova, R; Gorbenko, V; Savchyn, V; Voznyak: Optical, luminescence and scintillation characteristics of Bi-doped LuAG and YAG single crystalline films, J. Phys. D-Appl. Phys. (2009) 42/7, p. No. 075501

Schauer P., Autrata R.: Electro-optical properties of a scintillation
detector in SEM. J. Microsc. Spectrosc. Electron. 4 (1979), p. 633. Práce, které uvádějí citaci:

1. Comins, N.R.; Thirlwall, J.T.: Quantitative Studies and Theoretical Analysis of the Performance of the Scitillation Electron Detector, J. Microsc. (1981) 124, p. 119
2. Bauer, B.; Egg, B.: An Optimised Backscattered Electron Detector for the Scanning Electron Microscope, Pract. Met. (1984) 21, p. 460
3. Averkiev, V. V.; et al: Ljuminescencija kristallov na osnove sloznych okislov elementov tretej gruppy, Ljuminescentnyje prijomniki i preobrazovateli ionizirujustevo izlucenija, Novosibirsk, (1985) p. 30
4. Chapman, J.M.; Craven, A.J.; Scott, C.P.: Electron Detection in the Analytical Electron Microscope, Ultramicroscopy (1989) 28, p. 108
5. Autrata, R.: Backscattered Electron Imaging Using Single Crystal Scintillator Detectors, Scanning Microsc. (1989) 3/3, p. 739
6. Autrata, R.; Hermann, R.; Muller, M.: An Efficient Single Crystal BSE Detector in SEM, Scanning (1992) 14/3, p. 127-135
7. Hejna, J.: Detection of topographic contrast in the scanning electron microscope at low and medium resolution by different detectors and detector systems, Scanning Microsc (1994) 8/2, p. 143-164
8. Kirkland, E.J.; Thomas, M.G.: A high efficiency annular dark field detector for STEM, Ultramicroscopy (1996) 62/1-2, p. 79-88
9. Silvis-Cividjian, N; Hagen, CW: Electron-beam-induced nanometer-scale deposition, Advances In Imaging And Electron Physics, Vol 143; ADVANCES IN IMAGING AND ELECTRON PHY (2006) 143, p. 1-235

Kvapil Jos., Kvapil Ji., Blazek K., Zikmund J., Autrata R.,Schauer P.:
The luminescence efficiency of YAG:Ce phosphors. Czech. J. Phys. B 30 (1980), p. 185. Práce, které uvádějí citaci:

1. Robertson, J.M.; vanTol, M.W.; Heynen, J.P.H.; Smits, W.H.; deBoer, T: Thin Single Crystalline Phosphor Layers Grown by Liquid Phase Epitaxy, Philips. J. Res. (1980) 6, p. 354
2. Robertson, J.M.; vanTol, M.W.: Cathodoluminescent Garnet Layers, Thin Solid Films (1984) 114, p. 221
3. Mares, J.: Energy Transfer in YAlG:Nd Codoped with Ce, Czech. J. Phys. B (1985) B35/8, p. 883
4. Mares, J.A.; Jacquier, B.; Pedrini, C.; Boulon, G.: Fluorescence Decays and Lifetimes of Nd3+, Ce3+ and Cr3+ in YAG, Czech. J. Phys. B (1988) B38/7, p. 802-816
5. Autrata, R.: Backscattered Electron Imaging Using Single Crystal Scintillator Detectors, Scanning Microsc. (1989) 3/3, p. 739
6. Kucera, M.: Faraday Rotation and MCD in Ce Doped YIG, Sol. St. Commun (1989) 69/11, p. 1117
7. Rotman, S.R.: Appl. Phys. B (1989) 49, p. 59
8. Arzumanyan, G.A.; Bagdasarov, K.S.; Fedorov, E.A.; Ryadnov, S.N.; Bol: Compositional Inhomogeneities in Y-Ce-Tb-Al Garnet Crystals, Inorg Mater-Engl Tr (1990) 26/11, p. 2107-2108
9. Mares, J.A.; Khas, Z.; Nie, W.; Boulon, G.: Nonradiative Energy Transfer Between Cr-3+ and Nd-3+ Multisites in Y3Al5O12 Laser Crystals, J Phys I (1991) 1/6, p. 881-899
10. Arzumanyan, G.A.; Fedorov, E.A.; Bologova, A.V.; Ryadnov, S.N.: Growing and Composition of YAG-Ge, Kristallografiya SSSR (1991) 36/2, p. 481-485
11. Kucera, M.: Magneto-Optics of Ce-3+ Doped Garnets, J Magn Magn Mater (1991) 101/1-3, p. 242-244

Kvapil Ji., Kvapil Jos., Manek B., Perner B., Autrata R., Schauer P.:
Czochralski growth of YAG:Ce in reducing protective atmosphere. J. Cryst. Growth 52 (1981), p. 542. Práce, které uvádějí citaci:

1. Mulvey, T.: Recent Developments in Electron Guns and Detectors, J. Microsc. Spectrosc. Electron. (1984) 9/2, p. 121-6
2. Mulvey, T.: Instrumentation, Electron Optics and X-Ray Spectroscopy, J. Phys. Colloq. (1984) 45/C-2, p. 149
3. Belt RF, Uhrin R: Investigation of LaAl1-XSCxO3 for a Laser Host, J Cryst Growth (1984) 70/1-2, p. 471-475
4. Arzumanyan, G.A.; Bagdasarov, K.S.; Fedorov, E.A.; Ryadnov, S.N.; Bol: Compositional Inhomogeneities in Y-Ce-Tb-Al Garnet Crystals, Inorg Mater-Engl Tr (1990) 26/11, p. 2107-2108
5. Brandon, S.: J. Cryst. Growth (1991) 110, p. 481
6. Arzumanyan, G.A.; Fedorov, E.A.; Bologova, A.V.; Ryadnov, S.N.: Growing and Composition of YAG-Ge, Kristallografiya SSSR (1991) 36/2, p. 481-485
7. Derby, J.J.; Xiao, Q.: Some Effects of Crystal Rotation on Large-Scale Czochralski Oxide-Growth - Analysis via a Hydrodynamic Thermal-Capillary Model, J Cryst Growth (1991) 113/3-4, p. 575-586
8. Brandon S, Derby JJ: Internal Radiative Transport in the Vertical Bridgman Growth of Semitransparent Crystals, J Cryst Growth (1991) 110/3, p. 481-500
9. Brandon, S.; Derby, J.J.: Heat-Transfer in Vertical Bridgman Growth of Oxides - Effects of Conduction, Convection, and Internal Radiation, J Cryst Growth (1992) 121/3, p. 473-494
10. Xiao, Q.; Derby, J.J.: The Role of Internal Radiation and Melt Convection in Czochralski Oxide Growth - Deep Interfaces, Interface Inversion, and Spiraling, J Cryst Growth (1993) 128/1-4, p. 188-194
11. Xiao Q, Derby JJ: Heat-Transfer and Interface Inversion During the Czochralski Growth of Yttrium-Aluminum-Garnet and Gadolinium Gallium Garnet, J Cryst Growth (1994) 139/1-2, p. 147-157
12. Derby, J.J.; Brandon, S.; Salinger, A.G.; Xiao, Q.: Large-Scale Numerical-Analysis of Materials Processing Systems - High-Temperature Crystal-Growth and Molten Glass Flows, Comput Method Appl Mech Eng (1994) 112/1-4, p. 69-89
13. Okano Y, Tsuji Y, Yoon DH, Hoshikawa K, Fukuda T: Internal Radiative Heat-Transfer in Czochralski Growth of LiTaO3 Single-Crystal, J Cryst Growth (1994) 141/3-4, p. 383-388
14. Ikesue A, Kamata K: Fabrication Of Transparent Ce-Y2O3 Ceramics Using a Hip, J Ceram Soc JPN (1995) 103/11, p. 1155-1159
15. Tsukada, T.; Kakinoki, K.; Hozawa, M.; Imaishi, N.: Effect of internal radiation within crystal and melt on Czochralski crystal growth of oxide, Int J Heat Mass Transfer (1995) 38/15, p. 2707-2714
16. Ikesue, A.; Kamata, K.; Yoshida, K.: Effects of neodymium concentration on optical characteristics of polycrystalline Nd:YAG laser materials, J Amer Ceram Soc (1996) 79/7, p. 1921-1926
17. Brandon, S.; Gazit, D.; Horowitz, A.: Interface shapes and thermal fields during the gradient solidification method growth of sapphire single crystals, J Cryst Growth (1996) 167/1-2, p. 190-207
18. Vizman, D.; Nicoara, I.; Nicoara, D.: On the factors affecting the isotherm shape during Bridgman growth of semi-transparent crystals, J Cryst Growth (1996) 169/1, p. 161-169
19. Kobayashi M, Tsukada T, Hozawa M: Effect of internal radiative heat transfer on the convection in CZ oxide melt, J Cryst Growth (1997) 180/1, p. 157-166
20. Barvinschi F, Nicoara I, Santailler JL, Duffar T: Pseudo-transient heat transfer in vertical Bridgman crystal growth of semi-transparent materials, Model Simul Mater Sc (1998) 6/6, p. 691-700
21. Virozub A, Brandon S: Radiative heat transport during the vertical Bridgman growth of oxide single crystals: slabs versus cylinders, J Cryst Growth (1998) 193/4, p. 592-596
22. Rojo JC, Dieguez E, Derby JJ: A heat shield to control thermal gradients, melt convection, and interface shape during shouldering in Czochralski oxide growth, J Cryst Growth (1999) 200/1-2, p. 329-334
23. Ikesue A: Ce:YAG ceramic scintillator for electron beam detector, J Ceram Soc JPN (2000) 108/11, p. 1020-1023
24. Kobayashi M, Tsukada T, Hozawa M: Effect of internal radiative heat transfer on transition of flow modes in CZ oxide melt, J Cryst Growth (2000) 208/1-4, p. 459-465
25. Galazka Z, Wilke H: Heat transfer and fluid flow during growth of Y3Al5O12 single crystals using the Czochralski method, Cryst Res Technol (2000) 35/11-12, p. 1263-1278
26. Ikesue A: Polycrystalline Nd : YAG ceramics lasers, Opt Mater (2002) 19/1, p. 183-187
27. Kobayashi M, Hagino T, Tsukada T, Hozawa M: Effect of internal radiative heat transfer on interface inversion in Czochralski crystal growth of oxides, J Cryst Growth (2002) 235/1-4, p. 258-270
28. Nunes EM, Naraghi MHN, Zhang H, Prasad V: A volume radiation heat transfer model for Czochralski crystal growth processes, J Cryst Growth (2002) 236/4, p. 596-608
29. Linhart J: Inversion of the temperature field in optical crystals, Cryst Res Technol (2002) 37/8, p. 849-867
30. Lan, CW; Tu, CY; Lee, YF: Effects of internal radiation on heat flow and facet formation in Bridgman growth of YAG crystals, Int. J. Heat Mass Transf. (2003) 46/9, p. 1629-1640
31. Bhardwaj, R; Banerjee, J; Muralidhar, K: Effect of radiation losses in the growth of optical crystals by the Czochralski process, J Sci Ind Res (2003) 62/12, p. 1164-1175
32. Yuferev, VS; Budenkova, ON; Vasiliev, MG; Rukolaine, SA; Shlegel, VN;: Variations of solid-liquid interface in the BGO low thermal gradients Cz growth for diffuse and specular crystal side surface, J Cryst Growth (2003) 253/1-4, p. 383-397
33. Wang, HM; Simmonds, MC; Huang, YZ; Rodenburg, JM: Synthesis of nanosize powders and thin films of Yb-doped YAG by sol-gel methods, Chem Mat (2003) 15/18, p. 3474-3480
34. Galazka, Z; Schwabe, D; Wilke, H: Influence of internal radiation on the heat transfer during growth of YAG single crystals by the Czochralski method, Cryst Res Technol (2003) 38/10, p. 859-867
35. Muller, G; Friedrich, J: Challenges in modeling of bulk crystal growth, J Cryst Growth (2004) 266/1-3, p. 1-19
36. Schwabe, D; Sumathi, RR; Wilke, H: An experimental and numerical effort to simulate the interface deflection of YAG, J Cryst Growth (2004) 265/3-4, p. 440-452
37. Hayashi, A; Kobayashi, M; Jing, C; Tsukada, T; Hozawa, M: Numerical simulation of the Czochralski growth process of oxide crystals with a relatively thin optical thickness, Int. J. Heat Mass Transf. (2004) 47/25, p. 5501-5509
38. Banerjee, J; Muralidhar, K: Role of internal radiation during Czochralski growth of YAG and Nd : YAG crystals, Int. J. Therm. Sci. (2006) 45/2, p. 151-167
39. Jia, DD; Wang, Y; Guo, X; Li, K; Zou, YK; Jia, WY: Synthesis and characterization of YAG : Ce3+ LED nanophosphors, J. Electrochem. Soc. (2007) 154/1, p. J1-J4
40. Stelian, C: Numerical modeling of radiative heat transfer in Bridgman solidification of semi-transparent BaF2 crystals, J. Cryst. Growth (2007) 306/2, p. 444-451
41. Budenkova, O; Vasiliev, M; Yuferev, V; Kalaev, V: Effect of internal radiation on the solid-liquid interface shape in low and high thermal gradient Czochralski oxide growth, J. Cryst. Growth (2007) 303/1, p. 156-160
42. Tsukada, T; Kobayashi, M; Jing, CJ: A global analysis of heat transfer in the CZ crystal growth of oxide: Recent developments in the model, J. Cryst. Growth (2007) 303/1, p. 150-155
43. Jing, CJ; Hara, S; Sugioka, KI; Tsukada, T; Kobayashi, M; Mito, M; Yo: Global analysis of heat transfer considering three-dimensional IN unsteady melt flow in CZ crystal growth of oxide, J. Cryst. Growth (2007) 307/1, p. 235-244

Autrata R., Schauer P., Kvapil Ji., Kvapil Jos.: A Single crystal of
YAlO3:Ce3+ as a fast scintillator in SEM. Scanning 5 (1983), p. 91-96. Práce, které uvádějí citaci:

1. Globus, M.E.; Valbis, Ja.A.: Ocenka rabocevo diapazona osnovnych parametrov rentgenovskich detektorov iz novych scintilljacionnych materialov, Izmer. Tekh. (1988) 31, p. 54
2. Hejna, I.: Optimisation of the Ring Scintillation Detector for Backscattered Electron Imaging, Proc. Eur. Congr. Electron Microsc. - EUREM 88, York (1988) 1, p. 119-20
3. Perner, B.; Kvapil, Ji.; Kvapil, Jo.: Growth of YAP in Reducing Conditions, Czech. J. Phys. B (1988) 38/2, p. 181
4. Autrata, R.: Backscattered Electron Imaging Using Single Crystal Scintillator Detectors, Scanning Microsc. (1989) 3/3, p. 739
5. Kvapil, J.; Kvapil, J.; Perner, B.; Koselja, M.; Jelinkova, H.: Yttrium Aluminate Crystals for Slabs, Czech. J. Phys. B (1990) 40/11, p. 1283-1287
6. Baryshevsky, V.G.; Korzhik, M.V.; Moroz, V.I.; Pavlenko, V.B.; Fyodor: YAlO3 - Ce-Fast-Acting Scintillators for Detection of Ionizing Radiation, Nucl Instrum Meth Phys Res B (1991) 58/2, p. 291-293
7. Viktorov, L.V.; Skorikov, V.M.; Zhukov, V.M.; Shulgin, B.V.: Inorganic Scintillation Materials, Inorg Mater-Engl Tr (1991) 27/10, p. 1699-1722
8. Autrata, R.; Hejna, J.: Detectors for Low Voltage Scanning Electron Microscopy, Scanning (1991) 13/4, p. 275-287
9. Oho, E.; Ogihara, A.; Kanaya, K.: A Method Using an On-line Digital Computer for the Imrovement of Resolution of Backscattered Electron Images, J Microscopy (1991) 164/2, p. 143-152
10. Baryshevskii, V.G.; Korzhik, M.V.; Moroz, V.I.; Pavlenko, V.B.; Fedor: YAlO3-Ce Fast Scintillators for Detectors of Ionizing Radiation, Instrum Exp Tech-Engl Tr (1992) 35/3 Pa, p. 440-442
11. Gumanskaya, E.G.; Egorycheva, O.A.; Korzhik, M.V.; Smirnov, S.A.; Pav: Spectroscopic Characteristics and Scintillation Efficiency of YAlO3 Single-Crystals Activated by Cerium, Opt Spektrosk (1992) 72/2, p. 395-399
12. Ziegler, S.I.; Rogers, J.G.; Selivanov, V.; Sinitzin, I.: Characteristics of the New YAlO(3) - Ce Compared with BGO and GSO, IEEE Trans Nucl Sci (1993) 40/2, p. 194-197
13. Korzhik, M.V.; Moroz, V.I.; Pavlenko, V.B.; Fyodorov, A.A.; Smirnova,: Fast-Acting Scintillators Based on Doped Crystals of REAlO3, Nucl Track Radiat Meas (1993) 21/1, p. 113-115
14. Dorenbos, P.; Visser, R.; Vaneijk, C.W.E.; Khaidukov, N.M.; Korzhik,: Scintillation Properties of Some Ce(3+) and Pr(3+) Doped Inorganic Crystals, IEEE Trans Nucl Sci (1993) 40/4 Pa, p. 388-394
15. Visser, R.: Energy Transfer in Fluoride Scintillators, PhD. Thesis, Delft University of Technology, Faculty of Applied Physiscs, Radiation Tec (1993) p. 1-183
16. Baryshevsky, V.G.; Korzhik, M.V.; Minkov, B.I.; Smirnova, S.A.; Fyodo: Spectroscopy and Scintillation Properties of Cerium Doped YAlO3 Single Crystals, J Phys-Condens Matter (1993) 5/42, p. 7893-7902
17. Trower, W.P.: Cerium-Doped Yttrium Aluminum Perovskite (YAP): Properties of Commercial Crystals, Proc. of Materials Research Society Meeting, San Francisco (1994) 348, p. 131-136
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19. Mullerova, I., Fiser, J.: Magnetic Shielding of Stray Magnetic-Fields in the Scanning Electron-Microscope, Rev Sci Instrum (1994) 65/6, p. 1968-1972
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Autrata R., Schauer P., Kvapil Ji., Kvapil Jos.: Cathodoluminescence
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Autrata R., Schauer P., Kvapil Jos., Kvapil Ji.: Single crystal
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29. Hibino, M.; Irie, K.; Autrata, R.; Schauer, P.: Characteristics of YAG Single Crystals for Electron Scintillators of SEM, J. Electron. Microsc. (1992) 41/6, p. 453-457
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36. Hejna, J.: Detection of topographic contrast in the scanning electron microscope at low and medium resolution by different detectors and detector systems, Scanning Microsc (1994) 8/2, p. 143-164
37. Mullerova, I., Frank, L.: Use of Cathode Lens in Scanning Electron-Microscope for Low-Voltage Applications, Mikrochim Acta (1994) 114, p. 389-396
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41. Kurihara, K.; Iwadate, K.; Namatsu, H.; Nagase, M.; Takenaka, H.; Mur: An electron beam nanolithography system and its application to Si nanofabrication, Jpn J Appl Phys Pt 1 (1995) 34/12B, p. 6940-6946
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43. Kirkland, E.J.; Thomas, M.G.: A high efficiency annular dark field detector for STEM, Ultramicroscopy (1996) 62/1-2, p. 79-88
44. Daberkow, I.; Herrmann, K.H.; Liu, L.; Rau, W.D.; Tietz, H.: Development and performance of a fast fibre-plate coupled CCD camera at medium energy and image processing system for electron holography, Ultramicroscopy (1996) 64/1-4, p. 35-48
45. Autrata R, Mejzlik J: Problems of Light Output from Single-Crystal Scintillators, Inst Phys Conf Ser (1998) 93, p. 85-86
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49. Solyom DA, Barnes JH, Gron OA, Hieftje GM: Incorporation of an electro-optic ion detector into an improved plasma-source mass spectrograph, Spectrosc Spect Anal (2002) 22/5, p. 828-837

Schauer, P.; Autrata, R.: Light Transport in Single-Crystal
Scintillation Detectors in SEM. Scanning 14 (1992), p. 325-333. Práce, které uvádějí citaci:

1. Hejna, J.: Detection of topographic contrast in the scanning electron microscope at low and medium resolution by different detectors and detector systems, Scanning Microsc (1994) 8/2, p. 143-164
2. Kirkland, E.J.; Thomas, M.G.: A high efficiency annular dark field detector for STEM, Ultramicroscopy (1996) 62/1-2, p. 79-88
3. Birtchenko, R.N.; Filippov, M.N.; Rau, E.I.; Robinson, V.N.E.; Sedov,: Investigation of Light Collection Efficiency and Light Transport in BSE Scintillation Detectors in SEM, Proc. 14th International Congress on Electron Microscopy (ICEM 14), Cancun (Mexico) (1998) 1, p. 77-78
4. Filippov, M.N., Rau, E.I., Sennov, R.A., et al.: Light collection efficiency and light transport in backscattered electron scintillator detectors in scanning electron microscopy, Scanning (2001) 23/5, p. 305-312
5. Konvalina, I; Mullerova, I: The trajectories of secondary electrons in the scanning electron microscope, Scanning (2006) 28/5, p. 245-256

Hibino, M.; Irie, K.; Autrata, R.; Schauer, P.: Characteristics of YAG
Single Crystals for Electron Scintillators of SEM. J. Electron. Microsc. 41 (1992), p. 453-457. Práce, které uvádějí citaci:

1. Watt, I.M.: Highlights of the Current Literature, Europ. Microsc. Anal. (1993) 25, p. 47
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3. Solyom DA, Barnes JH, Gron OA, Hieftje GM: Incorporation of an electro-optic ion detector into an improved plasma-source mass spectrograph, Spectrosc Spect Anal (2002) 22/5, p. 828-837
4. Mares, HA; Eitlerova, AB; Nikl, M; Solovieva, N; Nitsch, K; Kucera, M: Scintillation and optical properties of YAG : Ce films grown by liquid phase epitaxy, Radiat. Meas., Spec. (2007) 42/4-5/, p. 533-536
5. Benk, M; Bergmann, K: Adaptive spatially resolving detector for the extreme ultraviolet with absolute measuring capability, Rev. Sci. Instrum. (2009) 80/3, p. No. 033113

Schauer, P.; Autrata, R.: Inquiry of Detector Components for Electron
Microscopy. Fine Mechanics and Optics 42 (1997), p. 332-334. Práce, které uvádějí citaci:

1. Horak, P; Schauer, P: Cathodoluminescence as a method for the study of degradation of polysilanes, Nucl. Instrum. Methods Phys. Res. Sect. B-Beam Interact. Mater. Atoms (2006) 252/2, p. 303-307

Handlir, R.; Schauer, F.; Nespurek, S.; Kuritka, I.; Weiter, M.;
Schauer, P.: Metastable States in Poly(methylphenylsilylene) Induced by UV Radiation and Electron Beam. J. Non-Crystalline Solids 230 (1998), p. 669-672. Práce, které uvádějí citaci:

1. Nagase, T; Kishimoto, K; Naito, H: High resolution measurement of localized-state distributions from transient photoconductivity in amorphous and polymeric semiconductors, J. Appl. Phys. (1999) 86/9, p. 5026-5035

Celkem: 229 citací mých časopiseckých prací
=============================

Poznámka: Uvedený seznam není a ani nemůže být vyčerpávající.

Autrata R., Schauer P., Kvapil Jos., Kvapil Ji.: A single crystal of
Y3Al5O12:Ce3+ as a scintillator in SEM and transparent screen in electron optical devices. 10th. International Congress on Electron Microscopy Hamburg (1982), p. 451. Práce, které uvádějí citaci:

1. Seiler, H.: Secondary Electron Emission in the Scanning Electron Microscope, J. Appl. Phys. (1983) 54, p. R1

Autrata R., Schauer P., Kvapil Ji., Kvapil Jos.: Single-crystal
electron detectors. 8th. European Congress on Electron Microscopy Budapest (1984), p. 617. Práce, které uvádějí citaci:

1. Berger, S.D.; McMullan, D.: Parallel Recording for an Electron Spectrometer on a Scanning Transmission Electron Microscope, Ultramicroscopy (1989) 28, p. 122
2. Autrata, R.: Backscattered Electron Imaging Using Single Crystal Scintillator Detectors, Scanning Microsc. (1989) 3/3, p. 739

Schauer P., Autrata R.: Influence of single crystal yttrium aluminates
surfaces on their cathodoluminescent properties. 7th. Czechoslovak conference on electronics and vacuum physics Bratislava (1985), p. 265. Práce, které uvádějí citaci:

1. Autrata, R.: Backscattered Electron Imaging Using Single Crystal Scintillator Detectors, Scanning Microsc. (1989) 3/3, p. 739

Hibino M., Irie K., Autrata R., Schauer P.: YAG single crystals for
scintillators of STEM. XIIth International Congress for Electron Microscopy San Francisco (1990), p. 166. Práce, které uvádějí citaci:

1. Kirkland, E.J.; Thomas, M.G.: A high efficiency annular dark field detector for STEM, Ultramicroscopy (1996) 62/1-2, p. 79-88

Schauer P., Autrata R.: Coatings of Single Crystal Scintillators for
Electron Detectors in SEM. 10th European Congress on Electron Microscopy Granada, Spain (Sept 1992), p. 107. Práce, které uvádějí citaci:

1. Novak, L; Mullerova, I: Single electron response of the scintillator-light guide-photomultiplier detector, J. Microsc.-Oxf. (2009) 233/1, p. 76-83

Schauer P., Autrata R.: Efficiency of SEM/STEM Scintillation Electron
Detectors with Edge Guided Signal. Multinational Congress on Electron Microscopy Parma, Italy (Sept 1993), p. 357-358. Práce, které uvádějí citaci:

1. Frank L, Mullerova I, Delong A: Microscopy with Slow-Electrons, Czech J Phys (1994) 44/3, p. 195-238

Schauer, P.; Autrata, R.: Time Response of Single Crystal Scintillation
Detectors for SEM/STEM. 13th International Congress on Electron Microscopy (ICEM 13) Paris, France (July 1994), p. 227-228. Práce, které uvádějí citaci:

1. Zuo, J.M.: Electron detection characteristics of slow-scan CCD camera, Ultramicroscopy (1996) 66/1-2, p. 21-33

Autrata, R.; Schauer, P.: Behaviour of Planar and Annular YAG Single
Crystal Detectors for LVSEM Operation. 13th International Congress on Electron Microscopy (ICEM 13) Paris, France (July 1994), p. 71-72. Práce, které uvádějí citaci:

1. Mullerova, I; Frank, L: Scanning low-energy electron microscopy, Advances In Imaging And Electron Physics, Vol 128; ADVANCES IN IMAGING AND ELECTRON PHY (2003) 128, p. 309-443

Schauer, P.; Autrata, R.: Computer optimized design of BSE
scintillation detector for SEM. EUREM-11, the Eleventh European Congress on Electron Microscopy (Edited and Published by the CESM, Brussels 1998) Dublin, Ireland (August 1996), p. 369. Práce, které uvádějí citaci:

1. Frank L, Mullerova I: Strategies for low- and very-low-energy SEM, J Electron Microsc (1999) 48/3, p. 205-219
2. Mullerova, I; Frank, L: Scanning low-energy electron microscopy, Advances In Imaging And Electron Physics, Vol 128; ADVANCES IN IMAGING AND ELECTRON PHY (2003) 128, p. 309-443

Autrata, R.; Schauer, P.: Single Crystal Scintillation Detectors for
LVSEM. 14th International Congress on Electron Microscopy (ICEM 14) Cancun, Mexico (Aug-Sep 1998), p. 437-438. Práce, které uvádějí citaci:

1. Mullerova, I; El-Gomati, MM; Frank, L: Imaging of the boron doping in silicon using low energy SEM, Ultramicroscopy (2002) 93/3-4, p. 223-243
2. Mullerova, I; Frank, L: Scanning low-energy electron microscopy, Advances In Imaging And Electron Physics, Vol 128; ADVANCES IN IMAGING AND ELECTRON PHY (2003) 128, p. 309-443
3. Mullerova, I; Frank, L: Contrast at very low energies of the gold/carbon specimen for resolution testing, Scanning (2004) 26/1, p. 18-24

Schauer, P.; Nespurek, S.; Schauer, F.; Autrata, R.: Optimization of Poly-(Methylphenylsilylene) Specimens for Cathodoluminescence Measurement. 31st Microscopy Conference - International Forum for Advanced Microscopy, Dresden, Germany (Sept 2003), p. 156-157. Práce, které uvádějí citaci:

1. Horak, P; Schauer, P: Cathodoluminescence as a method for the study of degradation of polysilanes, Nucl. Instrum. Methods Phys. Res. Sect. B-Beam Interact. Mater. Atoms (2006) 252/2, p. 303-307

Celkem: 15 citací mých prací ve sbornících
=============================

Poznámka: Uvedený seznam není a ani nemůže být vyčerpávající.

Citace, které neuvádějí přesný zdroj mých prací:
Práce, které uvádějí citaci:

1. Comins, N.R.; Thirlwall, J.T.; Arris, J.: Scintillator Lifetime Studies, Proceedings of EM Soc. of Southern Africa, Durban 1981 (1981) p. 19
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