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Seznam citací mých vlastních publikací

OBSAH.
Na této stránce najdete:


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

 

STATISTIKA CITACÍ
Stručný přehled počtu citací.


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

 

CITACE ČLÁNKŮ PUBLIKOVANÝCH V ČASOPISECH
Citovaná práce je vždy uvedena zeleným písmem.


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
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    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
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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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Schauer, P.; Autrata, R.: Light Transport in Single-Crystal
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    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
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Hibino, M.; Irie, K.; Autrata, R.; Schauer, P.: Characteristics of YAG
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    1. Watt, I.M.: Highlights of the Current Literature, Europ. Microsc. Anal. (1993) 25, p. 47
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Schauer, P.; Autrata, R.: Inquiry of Detector Components for Electron
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    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.;
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    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
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Poznámka: Uvedený seznam není a ani nemůže být vyčerpávající.

 

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Citovaná práce je vždy uvedena zeleným písmem.


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.

 

OSTATNÍ CITACE
Především pokud je citováno nepřesně, nebo je citován jiný zdroj než časopis či sborník.


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
    2. Planotec P 47 Scintillator Scheiben, Firemni literatura PLANO, Marburg, Friedrichsplatz 9, Germany (1982)
    3. Scintillation Disc, Firemni literatura EBTEC, Shoemaker Lane, P. O. Box 465, Agawam, USA (1982)
    4. Walther, P.; Ariano, B.M.; Kriz, S.; Muller, M.: High Resolution SEM Detection of Protein A Gold (15 nm) Marked Surface Antigens Using Backscattered Electrons, Beitr. Elektronenmikroskop. Direktabb. Oberfl. (1983) 16, p. 539
    5. Bauer, B.; Egg, B.: Ein Optimiert Ruckstreuelektronen Detektor fur das Rasterelektronen Mikroskop, Forschungsnachrict Max-Plank Institut fur Biologische Kybernetik, Tubengen, BRD (1983)
    6. Autrata, R.: Detection of Backscattered Electron in Scanning Electron Microscope, Slaboproudy Obzor (1984) 45, p. 577
    7. Walther, P.: Beitrage zur Verfesserung der Oberflacheninformation in der Rasterelektronenmikroskopie Biologischer Objekte, Doktor Diss. Arbeit ETH Zurich, Nr. 7647, Universitatstr. 1 (1985)
    8. Walther, P.; Hermann, R.; Studer, D.; Muller, M.: Detection of Small 5-15 nm Gold Labelled Surface Antigens by Backscattered Electrons, Dreilandertagung Elektronenmikroskopie 1985, Konstanz (1985) p. 74
    9. Walther, P.; et al: Detection of Small (5-15 nm) Gold Labelled Surface Antigens Using BSE, Proc. 4th Pfefferkorn Conf., Grand Canyon, 1985 (1985)
    10. Walther, P.; Muller, M.: Detection of Small (5-15 nm) Gold-Labelled Surface Antigens Using Backscattered Electrons, Sci. Biolog. Specimen Preparation, SEM Inc. O'Hare, 1985 (1985) p. 195
    11. Studer, D.; et al: Collodial Gold Particles Detected on Highly Structured Surface of Small Samples by BSE in the SEM, Proc. 4th. Pfeffernkorn Conf., Grand Canyon, 1985 (1985)
    12. Katalog fy SPI Supplies (1985-86), West Chester, PA 19380, USA (1985) p. 91
    13. Luthe, N; et al: Lection Binding Sites in Paramecium Tetraureliacells, Histochemistry (1986) 85, p. 365
    14. Egerton, R.F.; Crozier, P.A.: Parallel Recording with a GATAN 607 Energy-Loss Spectrometer, Proc. XIth. Conf. on Electron Microsc., Kyoto 1986 (1986) p. 525
    15. Studer, D.; Hermann, R.: Collodial Gold Particles Detected on Highly Structured Surfaces of Large Samples by Backscattered Electrons in the Scanning Electron Microscope, Sci. Biolog. Specimen Preparation, SEM Inc. O'Hare, 1986 (1986) p. 203
    16. Cermakova, O.: Birefringence in YAlO3:Ce between 2-5 eV, Czech. J. Phys. B (1986) 36, p. 1058
    17. Prospektova literatura fy Taylor Engineering Inc., 11506 Highwiew Avenue, Wheaton, MD 2 (1987)
    18. Walther, P.; Schweingruber, A.M.; Muller, M.; Schweingruber, M.E.: Morphological Organization of Glycoprotein Containing Cell Surface Structure in Yeast, J. Ult. Mol. Struct. Res. (1988) 101, p. 123
    19. McMullan, D.: Adv. Electr. (1988) 74, p. 147
    20. Mares, J.A.; Kvapil, J.: Prehled vlastnosti laserovych krystalu YAG:Nd a YAP:Nd, Jemna Mech. Opt. (1989) 34, p. 55
    21. Wood CEC, Tabatabaei SA, Mimomye LV, Grober LM: Reconstruction Controlled Dopant Incorporation and Coercion Effects in Molecular-Beam Epitaxial Germanium Grown on Gallium-Arsenide, J Appl Phys (1994) 76/4, p. 2197-2201

 

Celkem: 21 citací, které neuvádějí přesný zdroj mých prací
=====================================

Poznámka: Uvedený seznam není a ani nemůže být vyčerpávající.

 

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