光学文献集 No.118

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34 光学ニュース第118号 (1971年12月)

光学文献集 No.118

光学ニュースNo.105の分類表による,

J. Opt. Soc. Amer., Appl. Opt.および

Japan. J. Appl. Phys.を除く.

上記分類表で11A.11Cについては採録

しないことになりました.

2. 物理光学

A. 統計および量子光学

1. Near Field Diffraction Pattern Behind a Sinusoidal Phase Grating: A. Reichelt, E. Storck and U. Wolff, Opt. Communic. 3, No.3, 169-172 (1971).

2. Infrared Photon Counting by Ge Avalanche Diodes (L): W. Haecker, O. Groezinger and M. H. Pilkuhn, Appl. Phys. Letters 19, No.4, 113-115 (1971). 13.

3. Spatial Coherence Properties of a CO2 Laser: Y. Ohtsuka, Phys. Letters 34A, No.5, 279-280 (1971). 12A.

4. Mesures de fluctuations de phase a l'aide d'un dispositif strioscopique; J. P. Moliton, Nouv. Rev. d'Optique Appliquee, 2, No.2, 89-95 (1971).

5. Two-Photon Absorption at a Band Edge with Spheroidal Energy Surface: Y. Onodera, Opt, Communic. 3, No.2, 113-115 (1971).

B. 回折・散乱・表面その他

1. Interpretation de l'onde evanescente a l'aide de la construction d'Huygens dans le cas de la reflexion totale: D. Canal-Frau, Compt. Rend. 272, No.8, 453-456 (1971). 2. Review Lecture Lasers and Light Scattering: R. A. Smith, Proc. Roy. Soc. A323, No.1554, 305-340 (1971). 12A. 3. Effect of Atmospheric Turbulence on the Far Field Diffraction of an Annular Aperture: P. K. Katti, B. N. Gupta and K. Singh, J. Phys. D4, No.5, 666-671 (1971).

4. The Determination of Light Absorption in Diffusing Materials by a Photon Diffusion Model: L. F. Gate, J. Phys. D4, No.7, 1049-1056 (1971).

5. Laboratory Determination of the Characteristic Reflec-tion Matrices of Natural Surfaces (L): C. R. Nagaraja Rao, H. S. Chen and T. Takashima, J. Phys. D4, No.7, 1057-1062 (1971).

6. On Optical Homogeneity Measurement: M. Singh, Optik 33, Heft 3, 237-242 (1971).

7. Thermal Variation of Refractive Index: M. Singh, Optik 33, Heft 3, 293-295 (1971).

8. Uber den Einfluss der Aufweitung der Molekiile auf die Luftstreuung, Teil 1; L. M. Wolinski und A. Sadownik-Wodzinska, Optik 33, Heft 3, 282-292 (1971).

9. Viewing and Photography in Light-Scattering Media by the Spatial Selection Method: M. P. Vanyukov, E. V. Nilov and A. A. Chertkov, Soviet J. Opt. Tech. 37, No.6, 385-391

(1970).

10. Mechanics and Microphysics of Optical-Surface Genera-tion: L. S. Tsensnek, Soviet J. Opt. Tech. 37, No. 8, 545-556

(1970).

11. The Effect of Surface Cleanliness of Optical Elements on

their Radiation Resistance: I. A. Fersman & L. D. Khazov,

Soviet J. Opt, Tech. 37, No.9, 627-628 (1970).

12. Application of the Scaling Method to the Study of Light

Scattering with Allowance for the Gravitational Effect, and

the Determination of the Critical Indices from Light-scattering

Data: A. V. Chalyi and A. D. Alekhin, Soviet Phys. JETP 32,

No.2, 181-185 (1971).

13. Raman Determination of 2F7/2 Crystal Field Levels in

YbAlG and YbGaG: B. F. Argyle, R. L. Wadsack and R. K.

Chang, J. Appl. Phys. 42, No.4, 1478-1479 (1971).

14. Interaction of Light with Coherent Spin Waves in YIG: H.

Le Gall, J. P. Jamet and B. Desormiere, J. Appl. Phys. 42,

No.4, 1480-1481 (1971).

15. Light Diffraction by an Acoustic Surface Wave in Fused

Quartz: R. M. Montgomery and E. H. Young, Jr., J. Appl.

Phys. 42, No.7, 2585-2586 (1971).

16. Light Diffraction Phenomena in an ac-Excited Nematic

Liquid-Crystal Sample: Sun Lu and D. Jones, J. Appl. Phys.

42, No.5, 2138-2140 (1971).

17. Granularite d'un diffuseser eclaire en lumiêre coherente:

plan spectral et plan image: G. Mas, M. Palpacuer et J. Roig,

Compt. rend. 272, No.7, 425-428 (1971).

18. Diffraction Theory of the Method of the Caustic for

Measurement of Optical Surfaces: J. M. Simon, Optica Acta

18, No.5, 369-383 (1971).

19. On the Delivation of the Integral Equation for the

Propagation of Light in Dielectric Crystals: J. Vlieger, Can. J.

Phys., 49, No.10, 1384-1395 (1971).

20. Matrix Methods to Study Open Resonater: Expansion in

Jacobis Polynomials: P. A. Belanger and R. Tremblay, Can. J.

Phys., 49, No.10, 1290-1314 (1971).

21. Refractive Indices of Lithium Iodate Between 0.4 and

2.2ƒÊ: S. Umegaki, S.-I. Tanaka, T. Uchiyama and S.

Yabumoto, Opt. Communic. 3, No.4, 244-245 (1971).

22. Correlation of Light Beams Scattered at Different Angles

by a Ground Glass: S. Debrus and C. P. Grover, Opt.

Communic. 3, No.5, 340-342 (1971).

3. 干渉

1. Zur Interferenz unabhangiger Lichtstrahlen geringer Intensitzat. W. Radloff, Ann. Phys. 26, Heft 2, 178-189 (1971).

2. A Double Exposure Technique for Speckle Pattern Interferometry: J. N. Butters and J. A. Leendertz, J. Sci.

Instrum., 4, No.4, 277-279 (1971).

3. Interferometric Thickness Measurements on Transparent Thin Films: J. S. Hill, J. Phys. D4, No.6, 741-747 (1971). 4. 4. Multiple-Pass Interferometry by a Gated-Pulse Technique: W. Thomson and J. B. Humphreys, Opt. and Laser Tech. 3, No.2, 86-88 (1971).

5. Interferometric Studies of the Interaction of Focused Nd-Laser-Radiation with Thin Absorbing Surface Layers: M. Hugenschmidt and K. Vollrath, Opt. and Laser Tech. 3, No.2, 93-97 (1971). 12B.

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光学文献集 No.118 35 6. The Use of a Jamin Interferometer in a Shearing

Interferometer Arrangement: Yu. A. Anan'yev, N. I. Grishmanova and A. A. Zabelin, Soviet J. Opt. Tech . 37, No.7, 479-480 (1970).

7. Interference Experiment and Photon Statistics for Synchrotron Radiation from Electrons in a Storage Ring: I. A. Grishaev, N. N. Naugolnyi, L. V. Reprintsev, A. S. Tarasenko and A. M. Shenderovich, Soviet Phys. JETP 32, No.1, 16-19

(1971).8

. Sur une application d'optique non lineaire a l'elimination complete des erreurs causees par des variations d'incidence dans une mesure interferentielle par reflexion d'un rayon sur les faces d'une lame transparente: P. Bohler, Compt. Rend. 272, No.12, 735-738 (1971).

9. A New Method for Reducing the Sensitivity of an Interferometer: C. P. Grover and D. Sen, Optica Acta 18, No.4, 305-312 (1971).

10. Dispositif de filtrage a haute resolution utilisable en microscopie spectrale: J. P. Meriaux, J. M. Gutierrez, Ch. Schneider, R. Goutte et Cl. Guillaud, Nouv. Rev. d'Optique Appliquee, 2, No.2, 81-88 (1971).

11. Localisation longitudinale des surfaces par interferometrie a modulation de phase: G. Nomarski et G. Roblin, Nouv. Rev. d'Optique Appliquee, 2, No.2, 105-113 (1971). 10. 12. Multipass Laser Interferometry for Plasma Studies; N. R. Heckenberg and W. I. B. Smith, Rev. Sci. Instrum, 42, No.7, 977-980 (1971).

13. Tapered Interference Filters for the 400-800nm Range: S. V. Fedulov and I. I. Yurkevich, Soviet J. Opt. Tech. 37, No.8, 566 (1970).

14. The Tuning of Shearing Interferometers in Investigating Third-Order Aberrations: V. A. Komissaruk, Soviet J. Opt. Tech. 37, No.7, 419-422 (1970).

15. Checking the Angles of Precision Rectangular Prisms with an Interferometer: T. I. Kogan, Soviet J. Opt. Tech. 37, No.9, 611-613 (1970).

16. Some Problems in the Theory of Microinterferometers: A. N. Zakhar'evskiy, Soviet J. Opt. Tech. 37, No.9, 571-578 (1970).

17. A Three-Beam Interferogram for a Wavefront Described by a Combination of Third- and Fifth-Order Spherical Aberrations: V. A. Komissaruk, Soviet J. Opt. Tech. 37, No.8, 502-504 (1970).

18. Etude de l'effet des parametres d'appareil sur la decrois-sance de la visibilite du spectre cannele: C. Delisle, M. Brochu et J. M. St-Arnaud, Can. J. Phys., 49, No.17, 2237-2249 (1971).

19. Messung derüUbertragungsfunctionen fur des Inter-ferenzkontrast-Verfaren bei koharenter Beleuchtung: D. Haina und W. Waidelich, Z. Angew Phys., 31, Heft 5/6, 287-292 (1971). 7.

20. Localisation laterale d'une frange d'interferences a deux ondes a l'aide d'un reticule a profil sinusoidal: G. Roblin, Opt. Communic. 3, No.5, 316-319 (1971).

4. 薄膜

1. Durable Interference Coatings on Silicon: Yu. A. Glebov, Soviet J. Opt. Tech. 37, No.6, 374-375 (1970).

2. Use of a Low-Frequency Filter for Checking Thin Films Prepared by Vacuum Deposition: L. B. Katsnel'son, Soviet J. Opt. Tech. 37, No.7, 450-453 (1970).

3. High-Strength Antireflection Coatings for Germanium: Yu. A. Glebov and Yu. A. Almazov, Soviet J. Opt. Tech. 37, No.9, 624-625 (1970).

4. Polymer Coatings as Finishes for Movie Projector Parts: A. M. Farberov, Soviet J. Opt. Tech. 37, No.9, 627 (1970).

5. Mechanical Durability and Reflectance of Mirrors with Different Coatings: L. L. Matskevich, Soviet J. Opt. Tech. 37, No.6, 399-400 (1970).

6. Reflecting Gold Films: V. N. Rozhdestvenskiy, V. I. Studenov and E. I. Fadeyeva, Soviet J. Opt. Tech. 37, No.7, 447-449 (1970).

7. A Spectroscopic Investigation of the Reactive Sputtering of Aluminum: A. J. Stirling and W. D. Westwood, Thin Solid Films 7, No. 1,1-11 (1971).

8. High-Reflectivity Mirrors for Use at 10.6ƒÊ: A. I. Braun-stein and M. Braunstein, J. Vac. Sci. Technol. 8, No.2, 412-419 (1971).

9. Flatness and Surface Roughness of Some Common Thin Film Substrate Materials: R. M. Anderson and G. W. Neudeck, J. Vac. Sci. Technol. 8, No.2, 454-457 (1971).10

. Thin-Film Metal and Semiconductor Filters for the Vacuum Ultraviolet: O. M. Sorokin and V. A. Blank, Soviet J. Opt. Tech. 37, No.6, 343-346 (1970).

11. A Monochromator for Checking the Thickness of Inter-ference Films Deposited in Vacuo: L. B. Katsnel'son. A. A. Petrov and Sh. A. Furman, Soviet J. Opt. Tech. 37, No.6, 362-364 (1970).

12. A Direct Comparison of the Visible and Ultraviolet Reflectance of Aluminum Films Evaporated in Conventional and Ultra-High Vacuum Systems: E. T. Hutcheson, G. Hass and J. K. Coulter, Opt. Communic. 3, No.4, 213-216 (1971).

13. Bragg Diffraction Beam Splitter for Thin Film Optical Guided Waves: K. S. Pennington and L. Kuhn, Opt. Com-munic. 3, No.5, 357-359 (1971).

14. Nonlinear Electrodynamics of Thin Superconducting Films: L. P. Gorkov and N. B. Kopnin, Soviet Phys. JETP 32, No.1, 128-133 (1971).

15. Augmentation de la penetration du champ evanescent par interposition de couches minces: Y. Levy et G. Nomarski, Compt. Rend, 272, No.9, 516-519 (1971).

16. Theory, Design, and Selection of Vacuum Metallurgical Heat Treating and Processing Equipment: J. H. Durant, J. Vac. Sci. Technol, 8, No.4, 589-593 (1971).

17. Static Dielectric Constant of 'Built-up' Molecular Films of Barium-Stearate: U. Khanna, V. K. Srivastava and V. K. Agarwal, Thin Films 2, No.1, 83-88 (1971).

18. The Optical Properties of PbTe Films in the 5-20mƒÊ Wavelength Region: J. Wales and P. W. Black, Thin Solid Films 7, No.5, 325-341 (1971). 11-A.

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36 光学ニュース第118号 (1971年12月) 19. Spectrophotometric Compositional Analysis of

Tantalum-Aluminum Alloy Films: F. Huber and D. Jaffe, J. Vac. Sci. Technol. 8, No.3, 480-487 (1971). 11-D.

5. 偏光・結晶光学

1. Propagation and Amplification of Shear-Horizontal Waves in Piezoelectric Plates: C. Fischer, J. Appl. Phys. 42, No.3, 919-924 (1971).

2. Optical and Magneto-Optic Properties of Polycrystalline CdCr2S4 F. Moser, R. K. Ahrenkiel, E. Carnall, T. Coburn, S. L. Lyu, T. H. Lee, T. Martin and D. Pearlman, J. Appl. Phys. 42, No.4, 1449-1451 (1971).

3. Magneto-Optic Signal Processing: H. W. Fuller, J. Appl. Phys. 42, No.4, 1816-1818 (1971).

4. Theory of the Nonlinear Polar Kerr Magneto-Optic Effect in Ferromagnetic Metals: R. J. Romagnoli and P. E. Ferguson, J. Appl. Phys. 42, No.4, 1712-1715 (1971).

5. Variation of Stripe-Domain Spacing in a Faraday Effect Light Deflector: T. R. Johansen, D. I. Norman and E. J. Torok, J. Appl. Phys. 42, No.4, 1715-1716 (1971). 6. Binary Light Beam Deflection in Single Crystal Barium Titanate: M. D. Drake, R. I. Joseph and C. H. Palmer, Jr., J.

Appl. Phys. 42, No.5, 1950-1957 (1971).

7. Faraday Rotation in Artificial Dielectrics: G. P. Srivastava, P. C. Mathur and A. Kumar, J. Appl. Phys. 42, No.7, 2674-2675 (1971).

8. Photoelectric Polarimeter for Certification of Standard Quartz Plates: E. A. Volkova, M. Ya. Drapkin, D. I. Zorin, I. S. Sorokin and Yu. N. Shestopalov, Soviet J. Opt. Tech. 37, No.7, 440-442 (1970).

9. Objective Measurements of Birefringence Parameters in Studies of Mechanical Stresses by Polarized Light: A. I. Pen'kovskiy, Soviet J. Opt. Tech. 37, No.8, 557-561 (1970). 10. Temperature Compensation of Birefringent Optical Filters: T. Kimura and M. Saruwatari, Proc. IEEE 59, No.8,

1273-1274 (1971).

6. レンズ設計・測定

1. The Use of a "NAIRI" Type Computer in Design of Optical Systems: L. A. Titovskaya and O. K. Yurkin, Soviet J. Opt. Tech. 37, No.6, 383-385 (1970).

2. The Granit Varifocal Lenses: M. S. Stefanskiy, N. A. Gradoboyeva, I. Ye. Isayeva and T. V. Rubakhina, Soviet J. Opt. Tech. 37, No.8, 510-515 (1970).

3. Third-Order Spherical Aberration in an Optical System with a Rectangular Aperture: I. V. Peysakhson, Soviet J. Opt. Tech. 37, No.8, 516-517 (1970).

4. Application of Circuits Transformation to System of Lenses: G. Otis and R. Trenblay, Can. J. Phys., 49, No.8, 991-994 (1971).

5. Methode d'alignement au moyen d'une mire a Foyers multiples a phase inversee: G. Voivin et R. Gagnon, Can. J. Phys., 49, No.10, 1284-1289 (1971).

6. 非球面製作法に関する研究: 橋本洋, 精密機械, 37, No.9, 647-657 (1971).

7. Characteristic Straight Lines of Conical Sections and their Use in Practical Design: V. V. Novikov (Dec.), Soviet J. Opt. Tech. 37, No.6, 347-350 (1970).

8. Modulation Transfer Functions of Ideal Achromatic Lenses: R. A. Kraskovskiy, Soviet J. Opt. Tech. 37, No.7, 429-432 (1970).

9. Internal Focusing in Pancratic Lenses: N. A. Grado-boyeva, Soviet J. Opt. Tech. 37, No.7, 488-489 (1970). 10. A Symmetrical Condenser Made from Identical Fresnel Lenses: R. A. Kraskovskiy, Soviet J. Opt. Tech. 37, No.9, 585-587 (1970).

11. Corrected Seya-Namioka Design: Part I: M. Pouey, Opt. Communic. 3, No.3, 158-160 (1971).

7. 画像工学

1. La diffraction Fraunhofer partiellement coherente par une ouverture circulaire avec une pupille d'une transmission non uniforme: K. Singh et B. N. Gupta, Nouv. Rev. d'Optique Appliquee, 2, No.2, 97-104 (1971). 2B.

2. Abänderung der Grabertschen Formeln zur meridionalen und sagittalen Fokalpunktdurchrechnung: A. Thomescheit, Optik 33, Heft 3, 253-254 (1971).

3. Die Lage der Gunstigsten Bildebene mit mehrfarbigem Licht: J. Keprt, Optik 33, Heft 3, 243-252 (1971). 6. 4. The Use of an Electronic Plotter for Automatic Plotting of Calculated Spectral Characteristics: A. V. Popov and D. N. Shmelev, Soviet J. Opt. Tech. 37, No.6, 400-401 (1970). 5. High Process Gain Opto-Electronic Matched Filters for Communications Applications: G. Roome, A. V. Bunker and P. J. De Faye, Opto-Electronics 3, No.2, 77-91 (1971). 14. 6. The Calculation of the Optical Transfer Function: J. Macdonald, Optica Acta 18, No.4, 269-290 (1971). 7. Zur beugungstheoretischen Berechnung der Punktbild-und Ubertragungs-function optischer Systeme: R. Angstmann, Optica Acta 18, No.,4, 291-304 (1971).

8. Improvement in Fraunhofer Diffraction Images of an Aberrated Optical System Operating in Partially Coherent Light: P. K. Katti and B. N. Gupta, Optica Acta 18, No.5, 359-368 (1971).

9. System Aspects of Electrophotographic Materials and Processing for Liquid Reversal Toning: E. C. Giaimo and H. Wielicki, RCA Rev. 32, No.2, 199-220 (1971).

10. A Rapid Inexpensive Method for Determining the Spatial Intensity Distribution of a Laser Beam; A. A. Quinn, Rev. Sci. Instr. 42, No.7, 981-982 (1971). 12A.

11. Visualisation d'objets de phase par transformation de Hilbert: Y. Belvaux et J.-C. Vareille, Nouv. Rev. d'Optique Appliquee, 2, No.3, 149-162 (1971).

12. Optics for the Airborne Observer: L. Larmore & F. F. Hall, Jr., SPIE J. 9, No.3, 87-94 (1971).

13. Image Evaluation: Criteria and Applications-Paper 2: The MTF Criterion: E. B. Noffsinger, SPIE J. 9, No.3, 95-103 (1971).

14. Coherent Optical Parallel Processing: S. J. Krulikoski, Jr., D. C. Kowalski, SPIE J. 9, No.3, 104-110 (1971).

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Upconver-光学文献集 No.118 37 sion: W. Chiou, J. Appl. Phys. 42 , No.5, 1985-1993 (1971).

16. Autostereoscopy and Integral Photography: Yu. A. Dudnikov, Soviet J. Opt. Tech. 37, No.7, 422-426 (1970). 17. Image Brightness Amplification and Spectral Coversion: Ye. P. Semenov, Soviet J. Opt. Tech. 37, No.7, 463-473 (1970).

18. Variable-Contrast Test Pattern: I. N. Chernyy (Dec.), Soviet J. Opt. Tech. 37, No.7, 484-485 (1970).

19. Linearity and Space Invariance in Superresolving Systems: H. Arsenault, Opt. Communic. 3, No.2, 127-129 (1971). 20. A New Method for Optical Pattern Recognition by Correlation Measurements: U. Wagner, Opt. Communic. 3, No.2, 130-132 (1971).

21. Effect of Partially Space Coherent Illumination on the Performance of a Defocused Optical System with a Slit Aperture: K. Singh and B. N. Gupta, Opt. Communic. 3, No.3, 150-154 (1971).

22. Observation of a Phase Object Using Carrier-Frequency Photography: C. P. Grover, S. Mallick and M. L. Roblin, Opt. Communic. 3, No.3, 181-183 (1971).

23. Some Critical Remarks on Lukosz's Method for Proceed-ing beyond the Classical Resolution Limit: H. A. Ferwerda, Opt. Communic. 3, No.4, 217-220 (1971).

24. Removal of Nonperiodic Structures from a Periodic Image by Means of Spatial Filtering: H. Dammann and M. Kock, Opt. Communic. 3, No.4, 251-253 (1971).

25. Two Point Resolution in Partially Coherent Light: G. S. Bhatnagar, R. S. Sirohi and S. K. Sharma, Opt. Communic. 3, No.4, 269-271 (1971).

8. 写真・印刷 A. 感光材料

1. Agfacomntour Professional in der Praxis: H. Maas, Photo-Tech. u. Wirtsch. 22, No.2, 39-44 (1971).

2. Sur la courbe caracteristique des emulsions electrono-graphiques: A. Bijaoui, Nouv. Rev. d'Optique Appliquee, 2,

No.3, 169-173 (1971).

3. The Morphology of Color Images Formed by Color Development with Substantive Couplers: G. F. van Veelen, Photo. Sci. Eng. 15, No.3, 242-250 (1971).

4. Cross Sections for Absorption and Scattering of Clumps of Filamentary Silver: C. R. Berry and D. C. Skiliman, Photo. Sci. Eng. 15, No.3, 236-241 (1971).

5. The Influence of Gelatin on the Growth of Silver Halide Macrocrystals: F. Orban, J. Photogr. Sci. 19, No.3, 59-63 (1971).

6. An Investigation of the Role of the Functional Groups of Gelatin on Silver Halide Crystal Growth: E. Klein, E. Moisar and E. Roche, J. Photogr. Sci. 19, No.,3, 55-58 (1971). 7. Physical Processes in Reversal Liquid Development of Electrofax Layers: E. C. Hutter, Photo. Sci. Eng. 15, No.3, 251-259 (1971).

8. Electrochemical Experiments upon Developer Oxidation and Superadditivity: W. Jaenicke, H. Raithel and M. Brezina, Photo. Sci. Eng. 15, No.3, 230-235 (1971).

9. Nucleation and Crystal Growth Rates During the

Precipi-tation of Silver Halide Photographic Emulsions II. Ammoniacal Emulsions: E. B. Gutoff, Photo. Sci. Eng. 15, No.3, 189-199 (1971).

10. Photographic Effects of Electron and Positive Hole Traps in Silver Halides II. Reduction Sensitization in Octahedral Silver Bromide Grains: T. Tani, Photo. Sci. Eng. 15, No.3, 181-188 (1971).

11. Principal Possibilities of Non-Silver Halide Photographic Systems: J. Malinowski, Photo. Sci. Eng. 15, No.3, 175-180 (1971).

12. New "Two-Flash Method" for Measuring the Lifetime of Latent Pre-Image: M. Tamura, H. Hada, S. Fugiwara and S. Ikenoue, Photo. Sci. Eng. 15, No.3, 200-208 (1971). 13. Effects of Evacuation and Chemical Sensitization on Sensitivity to X-Rays and 7-Rays: W. C. Lewis, T. A. Babcock and T. H. James, Photo. Sci. Eng. 15, No.3, 209-212 (1971). 14. The Superadditivity of Negatively Charged Developing Agents with Reducing Agents Forming Stable Semiquinones IX. The Superadditivity of Redox Indicators and Weitz Radicals with Hydroquinone, Ascorbic Acid, and Sodium Dithionate: J. F. Willems, Photo. Sci. Eng. 15, No.3, 213-229 (1971).

15. Major Trends in Masking for Color Improvement; A Review: M. de Ramaix, Photo. Sci. Eng. 15, No.3, 262-267 (1971).

16. The Photochemical Speed of Positive Photoresists: F. J. Loprest and E. A. Fitzgerald, Photo. Sci. Eng. 15, No.3, 260-261 (1971). 17. ベンゼン置換体の最高被占準位および電子密度と現像活性: 谷忠昭, 日本写真学会誌 34, No.1, 9-15 (1971). 18. ポリビニルピロリドンを含むヨウ化銀ゾルの安定性 : 杉浦正昭, 日本写真学会誌34, No.1, 23-29 (1971).

19. Photoconductivity in Photochromic Strontium Titanate: R. Williams, J. Appl. Phys, 42, No.3, 1131-1135 (1971).

B. 写真計測

1. Some Clinical and Experimental Applications of Xeroradiography: J. W. Boag, A. J. Stacey and R. Davis, J. Photogr. Sci. 19, No.2, 45-48 (1971). 10.

2. Resolution Improvements in Neutron Radiography with Phosphor Detectors: A. R. Spowart, J. Photogr. Sci. 19, No.1, 1-13 (1971). 13.

3. Flow Visualization in a Rotating-Arc Plasma Jet: J. B. Cox, J. Photogr. Sci. 19, No.3, 72-75 (1971).

4. 電子顕微鏡による写真圧力効果の研究: 塩沢猛公, 日本写真学会誌34, No.1, 16-22 (1971). 5. マイクロイメージング: 中村賢市郎・坂田俊文, 日本写真学会誌34, No.1, 30-42 (1971). C. 印刷 1. コート紙のオフ輪印刷適性二樋口邦夫, 印刷雑誌, 54, No.9, 37-46 (1971). 2. オフ輪インキ-オフ輪インキの印刷適性-: 一見敏男, 印刷雑誌54, No.9, 47-53 (1971). 3. オフ輪インキ-乾燥性からみたオフ輪インキ-: 田村正義, 印刷雑誌, 54, No.9, 55-59 (1971).

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38 光学ニュース第118号(1971年12月)

9. ホログラフィ

1. Writing Characteristics of MnBi Films for Holographic Recording (L): T. C. Lee and D. Chen, Appl. Phys. Letters 19, No. 3, 62-65 (1971). 14, 18.

2. Permanent-Holograms in Glass by RF Sputter Etching: J. J. Hanak and J. P. Russell, RCA Rev. 32, No.2, 319-324 (1971).

3. Analysis of Transport Processes During Holographic Recording in Insulators: J. J. Amodei, RCA Rev. 32, No.2,

185-198 (1971).

4. Holography: B. J. Thompson, SPIE J. 9, No.3, 83-86 (1971).

5. Phase Copies of Holograms on Light-Sensitive Substances with Variable Solubility: Sh. D. Kakichashvili and R. N. Akhobadze, Soviet J. Opt. Tech. 37, No.9, 607-609 (1970). 6. Determination of Three-Dimensional Density Fields from Holographic Interferograms: R. D. Matulka and D. J. Collins, J. Appl. Phys. 42, No.3, 1109-1119(1971).

7. ホログラフィーの光弾性への応用: 土井康弘・小林忠紀・麻田治男, 精密機械, 37, No.9, 641-646 (1971). 8. ホログラフィー干渉法によるブルドン管の変形測定 : 川澄博通・鈴木弘明, 精密機械, 37, No.9, 647-651 (1971).

9. Measurement of Signal-to-Noise Ratio in Hologram Reconstructions by Vibration Interferograms: K. A. Stetson and K. Singh, Opt. and Laser Tech. 3, No.2, 104-108 (1971). 10. Recording Distortion in Irregularly Shaped Objects: R. W. E. Cook, Opt. and Laser Tech. 3, No.2, 71-73 (1971).

11. Holographic Recording of Three-Dimensional Objects: F. Lanzl, H. J. Mager and W. Waidelich, Opt. and Laser Tech. 3, No. 2, 83-85 (1971).

12. Fringe Localization in Hologram Interferometry of Mutually Independent and Dependent Rotations around Orthogonal, Non-Intersecting Axes: N. E. Molin and K. A. Stetson, Optik 33, Heft 4, 399-422 (1971). 3.

13. Enregistrement d'une Sequence de 20 Hologrammes "Double Exposition" a 10 Hoertz_{, Nouv. Rev. d'Optique} Appliquee, 2, No.3, 179-181 (1971).

14. Continuous Phase Control in Holography (L): B. J. Pernick, C. Bartolotta and D. Yustein, Rev. Sci. Instr., 42, No. 5, 718-719 (1971).

15. Holography: D. Gabor, W. E. Kock and G. W. Stroke, Science 173, No.3991, 11-23 (1971).

16. Hologram Information Storage Using Depth of Restored Image, and Particle-Track Recording Capacity of a Bubble Chamber: B. G. Turukhano, Soviet Phys. Tech. Phys. 15, No. 1, 131-135 (1970).

17. Holographic Studies of a Laser Spark. II. Double Inter-ferometer at Long Wavelength: I. I. Komissarova, G. V. Ostrovskaya and L. I. Shapiro, Soviet Phys. -Tech. Phys. 15, No. 5, 827-833 (1970). 12A,

18. Use of Diffusers in Holography of Phase Objects: V. K. Demkin, V. A. Nikashin, V. K. Sakharov and V. K. Tarasov, Soviet Phys. -Tech. Phys. 15, No.7, 1101-1103 (1971). 19. Classification of Holograph-Interferometer Methods

According to the Diffuse Elements in the Objects and in the Sources Used to Illuminate Them: N. G. Vlasov, Soviet Phys. Tech. Phys. 15, No.8, 1288-1290 (1971).

20. Parallel Matched Filtering by Means of Optically Matched Fourier Holograms: I. S. Klimenko and E. G. Matinyan, Soviet Phys. Tech. Phys. 15, No.8, 1364-1366 (1971).

21. Holographic Methods of Visualization and Measurement in Engineering: J. W. C. Gates, J. Photogr. Sci. 19, No.3, 64-71 (1971).

22. The Application of Holography as a Technique for Size and Velocity Analysis of High Velocity Droplets and Particles: J. M. Webster, J. Photogr. Sci. 19, No.2, 38-44 (1971). 8B. 23. Real-Time Holography: A. W. Lohmann, Opt. Communic. 3, No.2, 73-76 (1971).

24. Reduced-Information Projection-Type Holography Using a Horizontally Direction-Selective Stereoscreen: T. Okoshi and A. Yano, Opt. Communic. 3, No.2, 85-88 (1971). 7. 25. Role du caractere tridimensionnel du milieu photosensible au cours de l'enregistrement et de la restitution holographiques d'une onde plane: J. P. Prenel, Opt. Communic. 3, No.2, 99-100 (1971).

26. Reversal Processing Technique for Phase Holograms: P. Hariharan, Opt. Communic. 3, No.2, 119-121 (1971). 27. Analysis of Nonlinearities in Phase Holograms by the Use of Chebyshev Polynomials: R. S. Sirohi and C. S. Vikram, Opt. Communic. 3, No.2, 122-126 (1971).

28. Influence of Non-Linear Recording on Image Formation in Holography: C. H. F. Velzel, Opt. Communic. 3, No.3,

133-136 (1971).

29. A Note on the Contrast Function of Transmittance Storage Holograms: M. Lang, Opt. Communic. 3, No.3,

141-143 (1971).

30. Holographic Restoration of Non-Uniformly Sampled Band-limited Functions: F. Gori and G. Guattari, Opt. Communic. 3, No.3, 147-149 (1971).

31. Discrimination of Optical Signals by Using Random Distributions of Sources in Fourier Holography: G. Tribillon and J. Ch. Viênot, Opt. Communic. 3, No.3, 165-168 (1971).

32. Optical Memory of Three-Dimensional Holograms: V. V. Aristov, Opt. Communic. 3, No.3, 194-196 (1971).

33. On the Diffraction Efficiency of Transmittance Holograms: M. Lang, Opt. Communic. 3, No.4, 229-233 (1971).

34. Inscriptions holographiques dans des couches minces de semi-conducteurs amorphes: M. Adem et G. Bismuth, Opt. Communic. 3, No.4, 234-235 (1971).

35. Simplified Processing Technique for Photographic Phase Holograms: P. Hariharan, C. S. Ramanathan and G. S. Kaushik, Opt. Communic. 3, No.4, 246-247 (1971). 36. Reduction of Speckle in Image Plane Hologram Reconst-ruction by Moving Pupils: J. C. Dainty and W. T. Welford, Opt. Communic. 3, No.5, 289-294 (1971).

37. High-Efficiency In-Line Multiple Imaging by Means of Multiple Phase Holograms: H. Dammann and K. GOrtler, Opt. Communic. 3, No.5, 312-315 (1971).

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光学文献集 No.118 39

H. J. Caulfield, Opt. Communic. 3, No.5 , 322-323 (1971). 39. Holographic Generation of Depth Contours Using a Flash-Lamp-Pumped Dye Laser: _W.Schmidt _{and A.F.} Fercher, Opt. Communic. 3, No.5, 363-365 (1971) .

10. 光学機械・光計測

1. An Accurate Visual Method for Refractive Index Measure-ment in Near Infrared: R. N. Singh, D. P.Juyal, J. S. Bhargava, K. M. Mathur, O. S. Nagar and A. N. Bhattacharyya, J . Sci. Instrum., 4, No.4, 283-285 (1971).

2. Details for an Optical Gate: G.Harburn and J.K. Ranniko, J. Sci. Instrum., 4, No.5, 394-395 (1971). 3. Anwendung eines photoelektrischen Stricheinfanggerates als Durchfluss-Refraktometer in der Saulenchromatographie: H. D. Nowak und D. Nowak, Messtechnik, 79, Heft 5,

110-116 (1971).

4. Die Verwendung von Uhrenstein als Lochblenden in Strahlverbreiterungssystemen fur Laserstrahlen: H.Mintrop und H. Kunzmann, Messtechnik, 79, Heft 5, 99-102 (1971). 5. The Design and Construction of Kaleidoscopes to Modify the Energy Distribution in the Image Plane of the AWRE Arc Image Furnace: A.G.Hunt, Opt. and Laser Tech. 3, No.2, 98-102 (1971). 15.

6. A Model Designed as a Teaching-Aid for Phase and Amplitude Contrast Microscopy: N. V. B. Marsden, A. M. M. Zade-Oppen and P. A Oberg, Optik 33, Heft 4, 423-436 (1971).

7. Ultra-High Speed Photography of Picosecond Light Pulses: J. W. Hansen and M. A. Duguay, J. S. M. P. T. E. 80, No.2, 73-77 (1971).

8. Aspects of Scanning Microdensitometry 11. Spot Size, Focus and Resolution: D. J. Goldstein, Journal of Microscopy, 93, Part 1, 15-42 (1971).

9. Optical Readout of Laser Velocimeter Signals; A. Hauer and R. J. Burr, Rev. Sci. Instrum., 42, No.7, 1005-1006 (1971). 12B.

10. Scaling Wedge for Direct Readout of Interferometric Step Heights (L); E.L.King, Rev. Sci. Instrum., 42, No.6, 886-887 (1971). 3.

11. Use of a Multichannel Scaler and Computing Calculator to Generate Optical Transfer Functions: E. E. Klingman, Rev. Sci. Instrum., 42, No.5, 696-697 (1971). 16.

12. Shock Front Detection by Fraunhofer Diffraction (L): A. L. Besse, Rev. Sci. Instrum., 42, No.5, 721-722 (1971). 13. A Method for Measuring Angles of Incidence for Light on Metallic Films inside Vacuum Chambers; R. E. Palmer, Rev. Sci. Instrum., 42, No.7, 1075-1076 (1971).

14. Ultrahigh-Speed Photography of Picosecond Light Pulses: M. A. Duguay and J. W. Hansen, IEEE J. Quant. Electronics QE-7, No.1, 36-39 (1971).

15. Kameras in Kinderhanden: S.Remann, Photo-Tech.u. Wirtsch. 22, No.1, 9-12 (1971).

16. Optical Techniques for Detects in Silicon-On-Insulator Devices: R.A.Sunhine, RCA Rev. 32, No.2, 263-278 (1971).

17. Scanning Systems for Thermal Imaging Devices: E.Ya.

Karizhenskiy and M. M. Miroshnikov, Soviet J. Opt. Tech. 37, No.9, 600-603 (1970).

18. Modern Foreign Stereoscopic Microscopes: L.A.Fedin, Soviet J. Opt. Tech. 37, No.9, 613-623 (1970).

19. On the Significance of Bases in Optical Equipment: G. V. Pogarev, Soviet J. Opt. Tech. 37, No.8, 495-498 (1970). 20. Beam-Splitter Element for High-Intensity Light Beams: L. D. Khazov, Soviet J.Opt. Tech. 37, No.8, 563 (1970). 21. Analysis of Nonuniform Film Motion by Pulsed Exposure Method: D. N. Yes'kov and A. Ya. Smirnov, Soviet J. Opt. Tech. 37, No.8, 565 (1970).

22. Image Quality Produced by Some Objectives in the Infrared: V. N. Sintsov and T. M. Ponomarenko, Soviet J.Opt. Tech. 37, No.9, 582-585 (1970).

23. Wide-Angle Optical Devices for the Measurement of Angular Coordinates of Luminous Objects: Ye. N. Goncharenko and L. P. Osipova, Soviet J. Opt. Tech. 37, No.9, 588-590 (1970).

24. An Autocolimating Recorder of Angular Motion of a Moving Subassembly: G. S. Svetlov, E. Ye. Skoblo, L. N. Averin and L. I. Frisman, Soviet J. Opt. Tech. 37, No.9, 591-592 (1970).

25. The KDG-3, a New Phase Optical Rangefinder with a GaAs Diode: L. A. Neverov, N. V. Kortev, T. A. Larionova, V. V. Mitrofanov, A. K. Milashevskiy, Yu. V. Popov and B. V. Ryzhenko, Soviet J. Opt. Tech. 37, No.9, 596-600 (1970). 26. Stellar Calibration of the Lunar Mapping Camera Sub-system: A. D. Beccasio, SPIE J. 9, No.3, 77-82 (1971). 27. The Intensity Distribution of a Coherent Radiation Source at the Output End of a Flat Light-Guide Plate: L. M. Kuchikyan, Soviet J. Opt. Tech. 37, No.6, 355-358 (1970). 28. The GDFI-1 Pulse-Phase Optical Rangefinder with a GaAs Radiator: V. N. Deryagin and S.S.Barkalov, Soviet J. Opt. Tech. 37, No.6, 365-366 (1970).

29. High-Speed Scanning Analyzer of the Field of View of a Goniometer: V. K. Vinnik, V. I. Korol', V. Yu. Meshcherskiy and O. S. Molchanov, Soviet J. Opt. Tech. 37, No.6, 367-369 (1970).

30. Some Problems in the Planning of Integrated Microscope Designs: R. M. Raguzin, Soviet J. Opt. Tech. 37, No.7, 434-440 (1970).

31. The Relationship between Speed of Lens Shutters and the Effective Aperture: M.G.Tomilin, Soviet J. Opt. Tech. 37, No.7, 482-483 (1970).

32. Resolution of Flexible Regular Fiber Bundles: D. K. Sattarov, Yu. P. Orlov, L. A. Slavina and V. K. Sheremet'yeva, Soviet J. Opt. Tech. 37, No.7, 486-487 (1970).

33. Exposure Setting Devices for General-Purpose Still and Movie Cameras: V.V.Okrepilov, B. N. Orlov, I.M.Sokolov and A.M.Freyvert, Soviet J. Opt. Tech. 37, No.7, 473-479 (1970).

34. The KEP-1 Electronic Copier: Yu. A.Radkevich and P.N. Kozlov, Sovier J. Opt. Tech. 37, No.8, 518-520 (1970). 35. Recording the Angle of the Plane of Vibration of Linearly Polarized Infrared Radiation: A. I. Vanyurikhin, Yu. A. Kuznetsov, V. F. Maystrenko and V.D.Tron'ko, Soviet J. Opt. Tech, 37, No.8, 521-523 (1970).

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40 光学ニュース第118号 (1971 年 12 月)

36. A Projector for Marking Curved Surfaces: B. M. Levin and A. G. Seregin, Soviet J. Opt. Tech. 37, No.8, 523-525 (1970).

37. The SLP-4-A Small, Portable Steeloscope: V. A. Kos'yanenko, N.M.Shcherbik, S.K.Usenko, V. G. Kondrat'yeva, K. I. Taganov and Z. I. Shlepkova, Soviet J. Opt. Tech. 37, No.8, 525-527 (1970).

38. On the Origin of Flare Spots in the Eyepieces of Microscopes: A. P. Grammatin, Soviet J. Opt. Tech. 37, No.6, 359-360 (1970).

39. Comment on a Linear Technique for the Measurement of Ultrashort Optical PulsWidths: M.D.Crisp, Opt. Communic. 3, No.2, 111-112 (1971).

40. The Possibility of Measuring Spatial Velocity Correlation Functions in a Turbulent Fluid by Means of Light Scattering: M. Bertolotti, B. Crosignani, B.Daino and P. D. Porto, J. Phy. A4, No.3, L47—L49 (1971).

11. 分光・光物性 B. 非線型光学

1. Nonlinear Optical Properties of Hexagonal Silicon Carbide (L): S.Singh, J.R.Potopowitcz, L. G. Van Uitert and S. H. Wemple, Appl. Phys. Letters 19, No.3, 53-56 (1971).

2. Extending the Tuning Range of Tunable Oscillators by Upconversion (L): A. J. Campillo and C. L. Taug, Appl. Phys. Letters 19, No.2, 36-38 (1971).

3. Ultrashort Pulse Formation in a Short-Pulse-Stimulated Raman Oscillator (L): M.J.Colles, Appl. Phys. Letters 19, No.2, 23-25 (1971).

4. Attenuation of Monochromatic Radiation by the Near-Ground Atmosphere: V. A. Borisov, Soviet J. Opt. Tech. 37, No.7, 426-428 (1970).

5. Raman Scattering in FeBO3: I. W. Shepherd, J. Appl. Phys. 42, No.4, 1482-1483 (1971).

6. Infrared Absorption and Raman Scattering by Two-Magnon Processes in NiO: R. E. Dietz, G. I. Parisot and A. E. Meixner, J. Appl. Phys. 42, No.4, 1484 (1971).

7. Two-Photon Fluorescence Technique of Ultra-short Laser Pulse Measurement and the Efficiency of Nonlinear Optical Processes: S. A. Akhmanov and A.S.Chirkin, Opto-Electronics 3, No.2, 111-116 (1971).

8. Eine Art der Phasensynchronisation im nichtlinearen Kristall RDP bei der o+e•¨e Wechselwirkung: P.Chmela, Optik 33, Heft 3, 312-314 (1971).

9. On the Emission of Second Order Stokes Radiation in Stimulated Raman Scattering Processes: F. Aussenegg and U. Deserno, Phys. Letters 34A, No.5, 260-261 (1971).

10. Cuve a gaz haute efficacit6 pour l'etude des spectres Raman de substances corrosives excit6es par des lasers: A. Chapput, M.Delhaye et J.Wrobel, Compt. rend. 272, No.8, 461-464 (1971).

11. Theory of Second-Harmonic Generation with High-Conversion Efficiency: D. R. White, E. L. Dawes and J. H. Marburger, IEEE J. Quant. Electronics QE-6, No.12, 793-796 (1970).

12. Improvement of Optical Parametric Oscillators by Nonresonant Reflection: J.E.Bjorkolm, A. Ashkin and R. G. Smith, IEEE J. Quant. Electronics QE-6, No.12, 797-799 (1970).

13. Optical Second-Harmonic Generation in Isocyclic and Heterocyclic Organic Compounds: J.Jerphagnon, IEEE J. Quant. Electronics QE-7, No.1, 42-43 (1971).

14. Qua nten the oretische Untersuchung nichtlinearer optischer Effekte im Rahmen der Streutheorie. Mit 2 Abbildungen: L. J. Knoll, Ann. Phys. 26, Heft 2, 128-140 (1971).

15. Quantentheoretische Untersuchung des Raman-Effektes im Rahmen der Streutheorie. Mit 1 Abbildungen: L. J. Knoll, Ann. Phys. 26, Heft 2, 141-148 (1971).

16. Laser-Beam-Induced Breakdown and Stimulated Mandelshtam-Brillouin Scattering in Liquid He4: I.I. Abrikosova and N. S. Skrypnik, Soviet Phys. JETP 32, No.1, 34-36 (1971).

17. Stimulated Raman Scattering in a Field of Ultrashort Light Pulses: S. A. Akhmanov, K.N.Drabovich, A. P. Sukhorukov and A. S. Chirkin, Soviet Phys. JETP 32, No.2,

266-273 (1971).

18. Investigation of Narrow Resonances within the Doppler Line of the SF6 Molecule During Absorption Saturation: N. G. Basov, O. N. Kompanets, V.S.Letokhov and V. V. Nikitin, Soviet Phys. JETP 32, No.2, 214-219 (1971).

19. Nonlinear Polarizability in Resonant Interactions of an Electromagnetic Field with Matter: V.S.Butylkin, A.E. Kaplan, and Yu. G.Khronopulo, Soviet Phys. JETP 32, No.2, 501-507 (1971).

20. Light Scattering in Superfluid Helium under Pressure: B. N. Ganguly, Phys. Rev. Letters, 26, No.26, 1623-1627 (1971).

21. Dispersion of the Lowest-Order Optical Nonlinearity in InSb: J.J.Wynne, Phys. Rev. Letters 27, No.1, 17-21 (1971).

22. Rayleigh Scattering in a Plastic Crystal Due to Orientational Relaxation: L. Boyer, R. vacher, L.Cecchi, M. Adam and P. Berge, Phys. Rev. Letters 26, No.23,

1435-1437 (1971).

23. Nonlinear Optical Susceptibilities from Electroreflectance Moments Analysis: D.E.Aspnes, Phys. Rev. Letters 26, No.23, 1429-1432 (1971).

24. Une methode três simple de mesure des polarisabilites non lineaires d'ordre 3 de molecules faiblement anisotropes: S. Kielich, J.R.Lalanne et F.B.Martin, Compt. rend. 272, No.12, 731-734 (1971).

25. Transient Threshold Power of Stimulated Brillouin Raman Scattering: M.Maier and G.Renner, Phys. Letters

34A, No.6, 299-300 (1971).

26. Note on Resonant Raman Scattering in Polar Materials: H. Maim and R. R. Haering, Can. J. Phys., 49, No.13, 1823-1825 (1971).

27. Counting Statistics of Mixed Modulated Coherent and Partially Polarized Chaotic Light: J. Pefina, V. Pefinova and L. Mista, Opt. Communic. 3, No.2, 89-94 (1971).

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光学文献集 No.118 ₄₁

Plasma: W.Wonneberger, F.Siebert and _{W .Wettling,} _Opt.

Communic. 3, No.3, 179-180 (1971).

29. Influence of the Aperture Limitation on the Course of

Second Harmonic Generation: P.Chmela

, Opt. Communic. 3,

No.3, 184-188 (1971).

30. Multiphoton-Phonon Interactions and Higher Order

Brillouin Scattering Steady-State Gain Amplification: F.

Barocchi, Opt. Communic. 3, No.3, 189-193 (1971).

31. Optical Third Harmonic Generation in Organic Liquids:

M.R.Topp, R.P.Jones and P.M.Rentzepis, Opt . Communic.

3, No.4, 264-268 (1971).

32. Nonlinear Spectroscopy of Picosecond Pulses: D.H.

Auston, Opt. Communic. 3, No.4, 272-276 (1971).

33. Measurement of the Shape of Picosecond Light Pulses

Using Stimulated Raman Scattering: D.von der Linde and A.

Laubereau, Opt. Communic. 3, No.4, 279-283 (1971).

34. Transient and Quasistationary Stimulated Scattering of

Light: M.Maier and G.Renner, Opt. Communic. 3, No.5,

301-304 (1971).

35. Note on the Interpretation of the Experimental Data of

the Optical Activity in Crystals: V. Vysin and V.Janku, Opt.

Communic. 3, No.5, 305-307 (1971).

36. Interpreation of the Optical Activity of TeO2 and LiIO3:

V. Janku and V. Vysin, Opt. Communic. 3, No.5, 308-309

(1971).

37. Nonlinear Refractive Index of CS2 in Small Scale

Fila-ments: R. Cubeddu and F. Zaraga, Opt. Communic. 3, No.5,

310-311 (1971).

38. Angular Distribution of Stimulated Brillouin Scattering

Gain: F. Barcocchi and M. Zoppi, Opt. Communic. 3, No.5,

335-339 (1971).

39. ƒÎ-Pulser Propagation in Nonlinear Amplifiers: S. R.

Barone and S. Chi, Opt. Communic. 3, No.5, 343-345

(1971).

40. Investigation of Non-Linear Absorption of Light in

Solutions of Cryptocyanine: H. Schiiller and H. Puell, Opt.

Communic. 3, No.5, 352-356 (1971).

D. 装置・エレメント

1. An Electronically Controlled Fabry-Perot Spectrometer: M. J. Smeethe and J. F. James, J. Sci. Instrum., 4, No.6, 429-434 (1971).

2. The Design and Construction of a Very High Resolution Visible-Ultraviolet Grating Spectrograph: D. C. Moule, P.D. Foo and A. Biernacki, J. Sci. Instrum., 4, No.6, 449-451 (1971).

3. A Low Conductance Optical Slit for Windowless Vacuum Ultraviolet Light Sources: R. A. George, I. Roberts and E. G. Wilson, J.Sci. Instrum., 4, No.5, 384-387 (1971).

4. Spectrophotomêtre experimental semi-automatique: H. Barras, R. Fraisse et J. M. Lichensky, Nouv. Rev. d'Optique Appliquee, 2, No.3, 163-167 (1971).

5. A Rapid Scanning Dual Wavelength Spectrophotometer; B. Chance and N. Graham, Rev. Sci. Instrum., 42, No.7, 941-945 (1971).

6. Etude quantitative de l'efficacite du r6seau Echelette dans un montage a deviation constante: D. Maystre et R. Petit,

Nouv. Rev. d'Optique Appliquêe, 2, No.2, 115-120 (1971). 2B, 3.

7. Spectrometre de type S. I. S. A. M. a montage‹asy-mêtrique>> permettant de doubler la iisolvance: P.Pinson, J. Dupre et C. Meyer, Compt. Rend. 272, No.10, 587-590 (1971).

8. Magnetostrictive Method for Correcting Residual Spacing Errors of Diffraction Gratings: V. V. Kuindzhi, S. A. Strezhnev and N.A.Fetisova, Soviet J. Opt. Tech. 37, No.6, 378-380 (1970).

9. The VMS-1 Vacuum Monochromator-Spectrograph: N. G. Gerasimova, G.P.Startsev, V. L. Madorskiy,M.A. Ivashechkina, O. E. Nemtina and V. A. Kosyanenko, Soviet J. Opt. Tech. 37, No.7, 443-445 (1970).

12. レーザー・メーザー

A. 基礎

1. Emission Spectra in CdS under High Excitation by Electron Beam (L): S.lwai and S. Namba, Appl. Phys. Letters 19, No.2, 41-43 (1971).

2. Infrared-Pumped Visible Laser (L): L.F.Johnson and H. J. Guggenheim, Appl. Phys. Letters 19, No.2, 44-47 (1971). 3. High-Efficiency Room-Temperature 2.06-pm Laser Using Sensitized Ho3+: YLF (L): E.P.Chicklis, C.S.Naiman, R.C. Folweiler, D. R.Gabbe, H. P. Jenssen and A. Linz, Appl. Phys. Letters 19, No.4, 119-121 (1971).

4. 0.2-W Repetitively Pulsed Flashlamp-Pumped Dye Laser (L): M.E.Mack, Appl. Phys. Letters 19, No.4, 108-110 (1971).

5. Cross-Beam Electric-Discharge Convection Laser (L): A. C. Eckbreth and J. W. Davis, Appl. Phys. Letters 19, No.4, 101-103 (1971).

6. Detection of Images Immersed in Speckle Noise: J. C. Dainty, Optica Acta 18, No.5, 327-329 (1971).

7. Laser Beam Scintillation beyond a Turbulent Layer: K. S. Gochelashvily and V.I.Shishov, Optica Acta 18, No.4, 313-320 (1971).

8. Thermal Defocussing Introduced in a Lens by a High Power Laser Beam: S.P.S.Virdi, V.P.Nayyar and B. L. Mehta, Optik 33, Heft 4, 437-439 (1971).

9. Saturation and Discharge Studies in the He-Cd Laser: T. G.Giallerenzy and S. A. Ahmed, IEEE J. Quant. Electronics QE-7, No.1, 11-17 (1971).

10. Signal Structure of Continuously Self-Pulsing GaAs Lasers: D. Gloge and T. P. Lee, IEEE J.Quant. Electronics QE-7, No.1, 43-45 (1971).

11. On the Excitation Mechanism of the He-Zn Laser: L. A. Rieseberg and L. D. Schearer, IEEE J. Quant. Electronics QE-7, No.1, 40-41 (1971).

12. Continuous Visible and Near-Infrared Laser Action in Hg II: W.K.Scheubel, IEEE J.Quant. Electronics QE-7, No.1, 39-40 (1971).

13. Signature Variations with Mirror Separation for Small Sealed CO2 Lasers: A.L.Waksberg, J.C.Boag and S. Sizgoric, IEEE J. Quant. Electronics QE-7, No.1, 29-35 (1971).

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42 _{光学ニュース第118号} ₍₁₉₇₁ _{年 12 月)}

14. Response of a CW Nd3+: YAG Laser to Sinusoidal Cavity Perturbations: T.Kimura and K.Otsuka , IEEE J.Quant. Electronics QE-6, No.12, 764-769 (1970).

15. Pulsed CO2 Gas Dynamic Laser (L): S.Yatsiv, E. Greenfield, F.Dothan-Deutsch _{, D.Chuchen} _{and E.}

Bin-Num, Appl.Phys. Letters 19, No.3, 65-68 (1971). 16. Double Heterojunction AlGaAsP Quaternary Lasers (L): R.D.Burnham, N. Holonyak, Jr., H. W. Korb, H.M.Macksey, D.R.Scifres and S. B. Woodhouse, Appl.Phys. Letters 19, No.2, 25-28 (1971).

17. Chain-Reaction Chemical Laser Using H2-F2-He Mixtures (L): LaVerne D.Hess, Appl.Phys.Letters 19, No.1, 1-3 (1971).

18. Infrared Sidelight Studies in the High-Power Carbon Monoxide Laser (L): J. W. Rich and H. M. Thompson, Appl. Phys. Letters 19, No.1, 3-5 (1971).

19. Stimulated Emission and Laser Action in Gallium Nitride (L): R.Dingle, K.L.Shanklee, R. F. Leheny and R. B. Zetterstrom, Appl.Phys. Letters 19, No.1, 5-7 (1971). 20. cw CO Laser from the CS2-O2 Flame (L): H.S.Pilloff, S.

K. Searles and N. Djeu, Appl. Phys. Letters 19, No.1, 9-11 (1971).

21. GaAs: Si LED Pumped Yb-Doped YAG Laser (L): A. R. Reinberg, L.A.Riseberg, R. M. Brown, R.W.Wacker and W. C.Holton, Appl. Phys. Letters 19, No.1, 11-13 (1971). 22. A Thin-Film Ring Laser (L): H.P.Weber and R. Ulrich, Appl. Phys. Letters 19, No.2, 38-40 (1971).

23. The Gain of Transversely Excited CO2 Lasers at Pressures up to 500 Torr: A.F.Gibson, M. F. Kimmitt and B. S. Patel, J.Phys. D4, No.7, 882-887 (1971).

24. Quenching of Excited Atoms in a Photodissociation Laser: I.M.Belousova, O. B. Danilov, N. S. Kladovkova and I. L.Yachnev, Soviet Phys. Tech. Phys. 15, No.7, 1212-1213 (1971).

25. Vibrational Temperatures in a CO2 Laser: M.Z. Novgorodov V.N.Ochkin and N.N.Sobolev, Soviet Phys. Tech. Phys. 15, No.6, 977-982 (1971).

26. Single-Mode Single-Pulse Solid State Lasers: I.F. Balashov, V. V. Blagoveschenskii, L.S.Dovger, A.A.Mak and V.I.Ustugov, Soviet Phys. Tech. Phys. 15, No.7, 1104-1108 (1971).

27. Mesures de la densite electronique d'un laser ionique pulse par la methode de la cavite. Evaluation du temps de relaxation: J. Bensimon, J. Breton, M. Cotte et A.Karar, Compt. Rend. 272, No.10,615-618 (1971).

28. Methode de mesure des temps de relaxation T, et T2 du maser a hydrogêne, pour toute valeur du flux atomique: M. Desaintfuscien, C. Audoin et P.Petit, Compt. Rend. 272, No.11, 676-679 (1971).

29. Experimental Study of Nonlinear Processes in the He-Ne Laser: I. M. Belousova, O. B. Danilov And A. F. Zapryagaev, Soviet Phys. Tech. Phys. 15, No.2, 303-305 (1970). 30. Thermal Conditions and Energy Parameters of a Periodically Pulsed Ruby Laser: B. A. Ermakov and A. V. Lukin, Soviet Phys. Tech. Phys. 15, No.7, 1097-1100 (1971).

31. A Cold Cathode Pulsed Gas Laser: R. K. Lomnes and J. C.

W.Taylor, Rev. Sci. Instrum., 42, No.6, 766-769 (1971).

32. Pulse Duration Dependence of Laser Damage

Mecha-nisms: E. S. Bliss, Opto-Electronics 3, No.2, 99-108 (1971).

33. Spectral-time Method for Investigation Partial Mode

Locking in Ruby and Neodymium Glass Lasers: B. I.

Malyshev, A.V.Masalov and A.A.Sychev, Soviet Phys. JETP

32, No.1, 27-30 (1971).

34. Continuous-Wave Semiconductor Laser with Watt

Out-put: P. G. Eliseev and V.P.Strakhov, Soviet Phys. Tech. Phys.

15, No.7, 1214-1215 (1971).

35. Electro-dynamics of Spatially Inhomogeneous Laser

Action: A. A. Kostarev, Soviet Phys. Tech. Phys. 15, No.8,

1369-1370 (1971).

36. Frequency Stability of a Beam Laser with Coherent

Excitation: V.S.Letokhov and B. D. Pavlik, Soviet Phys.

Tech. Phys. 15, No.8, 1275-1282 (1971).

37. Similar Gas Discharges for CO2 Laser: V. K. Konyukhov,

Soviet Phys. Tech. Phys. 15, No.8, 1283-1287 (1971).

38. Frequency of the Hydrogen Maser (L): L.Essen, R. W.

Donaldson, M. J. Bangham and E.G.Hope, Nature 229,

No.5280, 110-111 (1971).

39. Production of Net Fusion Energy from Laser-Heated

Target Plasmas: R. R. Johnson and R.B.Hall, J. Appl. Phys.

42, No.3, 1035-1039 (1971).

40. Variable Output-Coupling Far-Infrared Michelson Laser:

K. M. Evenson, J. S. Wells, L.M.Matarrese and D.A.Jennings,

J. Appl. Phys. 42, No.3, 1233-1234 (1971).

41. Far-Infrared Laser Study of Magnetic Resonance in

DyPO4: G. A. Prinz and R. J. Wagner, J. Appl. Phys. 42,

No.4, 1569 (1971).

42. Organic Dye Laser Threshold: O. G. Peterson, J. P. Webb,

W.C.McColgin and J. H. Eberly, J. Appl. Phys. 42, No.5,

1917-1928 (1971).

43. Interferometric Measurement of Time-Dependent

Electron Density in the Xenon "Pinched" Plasma Laser: A.

Papayoanou and I.Gumeiner, J. Appl. Phys. 42, No.5 _,

1914-1916 (1971).

44. GaAs-Alt Gai.xAs Double Heterostructure Injection

Lasers: I. Hayashi, M.B.Panish and F.K.Reinhart, J. Appl .

Phys. 42, No.5, 1929-1941 (1971).

45. Neutron Damage in Epitaxial GaAs Laser Diodes: C. E.

Barnes, J.Appl. Phys. 42, No.5, 1941-1949 (1971).

46. Transitions from the 4T2 State in Pink Ruby: P. N.

Everett, J.Appl. Phys. 42, No.5, 2106-2112 (1971).

47. Ultraviolet Laser-Excited Fluorescence Decay

Measure-ments by Convolution Techniques: R.A.Kashnow and J.A.

Sousa, J. AppL Phys. 42, No.5, 2128-2129 (1971).

48. Mode Competition and Noise in the He-Ne Laser: L.Allen

and M. D. Sayers, J. Appl, Phys. 42, No.6, 2569-2570

(1971).

49. Kinetic Modeling of the High-Power Carbon Monoxide

Laser: J. W. Rich, J. Appl. Phys. 42, No.7, 2719-2730

(1971).

50. Characteristics of Optically Pumped Platelet Lasers of

ZnO, CdS, CdSe, and CdS0 _.6Se0.4 _Between _300•K _and _80•KK:

W. D. Johnston, Jr., J.Appl. Phys. 42, No.7, 2731-2740

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光学文献集 No.118 43 51. Measurement of Particle Velocity at a Shock Front in

Water with a Laser Doppler Meter: R. E. Anderson, C. E. Edlund and B. W. Vanzant, J. Appl.Phys . 42, No.7, 2741-2743 (1971).

52. Decrease in Spontaneous Emission at the Onset of Lasing in Semiconductors: F. H. Nicoll, J. Appl. Phys. 42, No.7, 2743-2746 (1971).

53. Absorbing Centers in Laser Materials: H. S. Bennett, J. Appl. Phys. 42, No.2, 619-630 (1971).

54. Excitation and Doping Dependences of Electron Diffu-sion Length in GaAs Junction Lasers: C.J.Hwang, J. Appl. Phys. 42, No.2, 757-761 (1971).

55. Spiking in Current-Modulated cw GaAs External Cavity Lasers: E. P. Harris, J. Appl.Phys.42, No.2, 892-893 (1971).

56. GaAs-Pumped GaAs Lasers and the Behavior of Band Tails: D. R. Scifres, N.Holonyak, Jr., P. D. Dapkus and R.D. Burnham, J. Appl. Phys.42, No.2, 896-897 (1971). 57. Interaction of a Laser-Blowoff Plasma with a Strong Transverse Magnetic Field: N.H.Burnett and P. R. Smy, J. Appl. Phys. 42, No.3, 991-994 (1971).

58. Parametric Studies of the Iodine Photodissociation Laser: D.E. O'Brien and J. R. Bowen, J. Appl. Phys. 42, No.3,

1010-1015 (1971).

59. Pumping Mechanism of CO2 Laser and Formation Rate of CO2 from CO and O: C.J.Chen, J.Appl.Phys. 42, No.3,

1016-1020 (1971).

60. Calculation of Nd: YA1G Cavity Dumping: R. B. Chesler and D.Maydan, J. Appl. Phys. 42, No.3, 1028-1030 (1971). 61. Natural Fluctuations in Solid-state Lines: Yu.S. Klimontovich and A.S.Kovalev, Soviet Phys.JETP 32, No.2, 254-257 (1971).

62. Output Power Stabilization of a Helium-Neon Laser: R. Nowicki, J. Sci. Instrum., 4, No.4, 274-276 (1971). 63. Theory of Stimulated Emission from Moving Bodies (Kinematic Modulation): B.L.Livshitz, Soviet Phys. JETP 32, No.2, 283-286 (1971).

64. Kinetics of Vibrational Exchange in Molecules, Amplifi-cation of Radiation in Hydrogen Halides by Electric or Chemical Pumping: B. F. Gordiets, A.I.Osipov and L. A. Shelepin, Soviet Phys. JETP 32, No.2, 334-341 (1971). 65. Excitation of LaF3 (Nd3+) Crystals by Monochromatic Light: A. A. Zlenko, A. M. Prokhorov, V. A. Sychugo-v and G. P.Shipulo, Soviet Phys. JETP 32, No.2, 430-432 (1971). 66. Mode Excitation, Spatial Coherence, and Free Oscillation Kinetics in a Ruby Laser: A.M.Leontovich and V.L. Churkin, Soviet Phys.JETP 32, No.1, 4-10 (1971).

67. The Effect of Cavity Mirror Transmittance on the Characteristics of a Single-Pulse Laser: A.A.Mak, B.G. Malinin, A. I. Stepanov, V. A. Fromzel' and D.I.Perlov, Soviet J. Opt. Tech. 37, No.8, 499-501 (1970).

68. The OGM-20 Giant Pulse Laser: A. P. Zharkov, Yu. E. Kamach, Ye. N. Kozlovskiy, Yu.V.Lyubayskiy and V. M. Ovchinnikov, Soviet J.Opt.Tech. 37, No.9, 593-596 (1970). 69. Interaction of CO2 Laser Radiation with Solids. I.Drilling of Thin Metallic Sheets; J.N.Gonsalves and W. W. Duley, Can. J. Phys., 49, No.13, 1708-1713 (1971).

70. Helical TEA-CO2 Lasers: R.Fortin, M.Grabel and R. Tremblay, Can.J.Phys., 49, No.13, 1783-1793 (1971). 71. Grain Measurements at 10.6pm in Pure CO2 Discharges: A. K. McQuillan G. Yea and A.I.Carswell, Can.J. Phys., 49, No.12, 1611-1619 (1971).

72. Nouvelle methode de mesure de la coherence spacial en lumiêre pseudo-thermique par comptage des photoelectrons: C.Delisle et J. Bures, Can. J. Phys., 49, No.14, 1940-1949 (1971).

73. Hydrodynamic Effect on the Laser-Beam Propagation through Gases: S. S. Raignekar, Can. J. Phys., 49, No.15,

1994-2004 (1971).

74. Frequenzstabilisierung des He-Ne Lasers mit einer dusseren Absorptionsrohre im magnetischen Wechselfeld: V.

Bodlaj, Z.angew.Phys., 31, Heft 2, 97-105 (1971). 75. Reflection Properties of an Active Three-Mirrors

Resonator: T.Tschudi and R.Dandliker, Z.angew. Phys., 31, Heft 2, 105-111(1971).

76. Temperaturabhangigkeit der Einwegverstarkung und Superstrahlung eines Rubinlaserverstarkers: H.August and H. Weber, Z.angew. Phys., 31, Heft 2, 111-116 (1971).

77. Expansion of a Focused Laser Beam in the Turbulent Atmosphere: A.D.Varvatsis and M.I.Sancer, Can. J. Phys., 49, No.10, 1233-1248 (1971).

78. A Helium-Neon Laser Cavity Amplifier Operating at 3.39ƒÊ: I. P. Mazan'ko and M.V.Sviridov, Soviet J.Opt.Tech. 37, No.7, 433-434 (1970).

79. The Spectral Linewidth of Laser Noise and of Fluctua-tions near Other Second-order Phase Transitions: E.Jakeman and E. R. Pike, J. Phy. A4, No.3, L56-L57 (1971).

80. On the Subpicosecond Structure and Frequency Sweep of Mode Locked Lasers: O. Svelto, Opt. Communic.3, No.2,

105-106 (1971).

81. Spectral Distribution of the Stimulated Emission of a Rhodamine B Dye Laser: Q. H. F. Vrehen, Opt. Communic. 3, No.3, 144-146 (1971).

82. Effect of Active Medium on the Polarization States of Modes in Anisotropic Resonators: T.Yoshino, Opt. Com-munic.3, No.3, 155-157 (1971).

83. He-Se Mode Locked Laser with Internal Phase Modula-tion: A. Ferrario and B. Querzola, Opt. Communic. 3, No.3,

161-164 (1971).

84. An Intracavity-Pumped cw Dye Laser: R. L. Kohn, C. V. Shank, E. P. lppen and A.Dienes, Opt.Communic.3, No.3,

177-178 (1971).

85. Non Linear Effects in a Multimode Gas Laser: Saturation of a J=1•©•¨J=0 Transition in Presence of a Magnetic Field: M.Ducloy, Opt. Communic. 3, No.4, 205-208 (1971). 86. Conditions for Self-Pulsing in a Laser Oscillator: A. Bambini and R. Vallauri, Opt. Communic. 3, No.4, 209-212 (1971).

87. Level-Crossing Effects and Spin-Dependent Decay of Circularly Polarized Photon Echoes in Ruby: A. Compaan, L. Q.Lambert and I. D. Abella, Opt.Communic.3, No.4, 236-239 (1971).

88. High Efficiency Superradiant Traveling-Wave Dye Laser: S. L. Chin and G.Bedard, Opt. Communic.3, No.5, 299-300

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44 光学ニュース第118号(1971年12月)

(1971).

89. Excitation of Far Vacuum UV Lasers by Fast Heating of Plasma Electrons in Ultrashort Pulsed Optical Fields: I. N. Knyazev and V. S. Letokhov, Opt. Communic. 3, No.5, 332-334 (1971).

90. Single Mode Operation of a Continuous Tunable Dye Laser: M. Hercher and H. A. Pike, Opt. Communic. 3, No.5, 346-348 (1971).

91. A Simple Spectrum Analyzer for Laser Light Using Speckles: F. M. Mottier and R. Dandliker, Opt. Communic. 3, No. 5, 366-368 (1971).

B. 応用

1. Passage of Electromagnetic Radiation through a Resonant Medium in the Presence of an Intense Monochromatic Wave: V. M. Arutyunyan, E. G. Kanetsyan and V. O. Chaltykyan: Soviet Phys. JETP 32, No.1, 108-110 (1971).

2. Laser-Doppler Velocity Measurements in Laminar Dif-fusion Flames (L): H. James and P. D. Green, J. Phys. D4, No. 5, 738-740 (1971).

3. Rotating-Mirror Wavelength Shifter: N. Niewenhuijzen and C. Veth, Opt. and Laser Tech. 3, No.2, 89-92 (1971). 4. Die Koharenz-optische Messung der Rauhtiefe von metalischen Oberflachen: U. KOpf, Z. angew. Phys., 31,

Heft 3, 156-158 (1971).

5. Heating of a Theta-Pinch Plasma by a CO2 Laser: J. Martineau and H. Pepin, Can. J. Phys., 49, No.12, 1685-1687 (1971).

6. レーザ干渉親ねじリード測定器: 山本晃, 精密機械, 37, No.9, 641-646 (1971).

7. Untersuchung von Halbleiter-Plâttchen mit einem 3.39 Mikron-Laser-Raster-Mikroskop: J. F. Black and B. Sherman, Messtecknik, 79, Heft 3, 61-65 (1971).

8. A Theoretical Analysis of Laser Flowmeters: R. Manning, Opto-Electronics 3, No.2, 93-97 (1971).

9. Investigation of Fine Structure of Potassium Vapor Emission Spectrum in Ruby Laser Field: V. A. Golubev, Yu. M. Kirin, D. P. Kovalev, S. G. Rautian and B. M. Chernobrod, Soviet Phys. JETP 32, No.2, 360-366 (1971).

10. Use of Picosecond Ruby Laser Pulses in the Measurement of the Decay Time of the Luminescence Band of the First Phonon Replica of the A-type Exciton in CdS: I. K. Krasyuk, L. A. Kulevskii, P. P. Pashinin and A. M. Prokhorov, Soviet Phys. JETP 32, No.2, 186-188 (1971).

11. Simultaneous Extended Action of High-power Light Beam on Matter: G. A. Askaryan and V. K. Stepanov. Soviet Phys. JETP 32, No.2, 198-199 (1971).

12. Modulator Frequency Detuning Effects in the FM Mode-Locked Laser: A. E. Siegman and D. J. Kuizenka, IEEE J. Quant. Electronics QE-6, No.12, 803-808 (1970).

13. Interferometric Measurement of Refractive Index and Temperature Profiles in a Pulsed CO2 Laser Ampifier: D. J. Booth and W. E. K. Gibbs, IEEE J. Quant. Electronics QE-7, No. 1, 17-24 (1971).

14. Detection of Room-Temperature Blackbody Radiation by Parametric Upconversion (L): J. Falk and J. M. Yarborough, Appl. Phys. Letters 19, No.3, 68-71 (1971).

15. Spatial Variation of Radiative Recombination in GaAsP Wafer Revealed by Photoluminescence Image (L): J. F. Black, C. J. Summers and B. Sherman, Appl. Phys. Letters 19, No.2, 28-30 (1971),

16. Infrared Spectroscopy of CO Using a Tunable PbSSe Diode Laser (L): K. W. Nill, F. A. Blum, A. R. Calawa and T. C. Harman, Appl. Phys. Letters 19, No.4, 79-82 (1971). 17. Observation of Infrared-Microwave Two-Photon Transi-tions in NH3 (L): T. Oka and T. Shimizu, Appl. Phys. Letters 19, No.4, 88-90 (1971). 11B.

18. Millimeter and Submilimeter Wave Laser Action in Symmetric Top Molecules Optically Pumped via Parallel Absorption Bands (L): T. Y. Chang and J. D. McGee, Appl. Phys. Letters 19, No.4, 103-105 (1971).

19. Modular Electro-Optic Ruby Laser Q-Switches: V. I. Bespalov, V. I. Gostev, V. V. Gruzdev, V. I. Katsman, N. V. Kononov and V. I. Lavrov, Soviet J. Opt. Tech. 37, No.6, 350-352 (1970).

20. Spectral Analysis of the Signal from the Laser Doppler Flowmeter: Time-Independent Systems: R. V. Edwards J. C. Angus, M. J. French and J. W. Dunning, Jr., J. Appl. Phys. 42, No. 2, 837-850 (1971).

21. Optical Waveguide Technique with Organic Dye Lasers: G. Zeidler, J. Appl. Phys. 42, No.2, 884-885 (1971).

22. Q-Swtiching and Cavity Dumping of Nd: YAIG Lasers: D. Maydan and R. B. Chesler, J. Appl. Phys. 42, No.3, 1031-1034 (1971).

23. Channeling of an Ionizing Electrical Streamer by a Laser Beam: D. W. Koopman and T. D. Wilkerson, J. Appl. Phys. 42, No. 5, 1883-1886 (1971).

24. Thermal Inhomogeneities and Spectral Bleaching of the Kodak 9860 Saturable Absorber: R. Wilbrandt, E. Mathieu and H. Weber, Opt. Communie. 3, No.5, 328-331 (1971).

13. 測光・検知器

1. Investigation of Phase Detection Errors in a Photodiode Circuit: V. G. Vlasov, Yu. V. Popov and B. I. Utenkov, Soviet J. Opt. Tech. 37, No.7, 480-481 (1970).

2. Transistorized Low-Noise, Short-Pulse Amplifier for Photoelectric Equipment: V. A. Markin and F. 1. Talapov, Soviet J. Opt. Tech. 37, No.,7, 485-486 (1970).

3. Analysis of Surface Defects of Transparent Rods and Fibers: Yu. A. Tsirlin, A. R. Daych and N. S. Sagayda, Soviet J. Opt. Tech. 37, No.8, 506-509 (1970).

4. Method and Apparatus for Measuring Atmospheric Transmission: V. A. Borisov and 1. M. Markov, Soviet J. Opt. Tech. 37, No.9, 578-581 (1970).

5. Photodetectors for Laser Applications: P. J. R. Laybourn, Opt. and Laser Tech. 3, No.2, 76-82 (1971). 12A.

6. Limites fondamentales et criteres de qualite des capteurs de rayonnement: F. Desvignes, Nouv. Rev. d'Optique Appliquee, 2, 121-132 (1971).

7. Approximate Photocount Statistics for Coherent and Chaotic Radiation of Arbitrary Spectral Shape: G. Lachs, J.

Appl. Phys. 42, No.2, 602-609 (1971).

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光学文献集No.118 45 Crandell and K. Schroder, J . Appl. Phys. 42, No.4,

1710-1712 (1971).

9. Phase Sensitivity of an Optical Homodyne Detection Circuit: K. I. Adrianova and V. G. Vlasov, Soviet J. Opt. Tech. 37, No.6,353-354 (1970).

10. Expanding the Dynamic Range of a Photomultiplier with a Photoelectric Amplifier: G. A. Aver'yanov and I. N. Safronov, Soviet J. Opt. Tech. 37, No.6, 406-407 (1970). 11. Nonlinear Photoelectric Electron Emission Induced by Picosecond Mode-Locked Laser Pulses: G. Farkas, Z. G. Horvath, I. Kertesz and G. Kiss, Lettere al Nuovo Cimento I,

No. 8,314-318 (1971). 12.

12. Photometric Characteristics of Light Controling Apparatus: R. E. Levin, III. Eng., 66, No.4,205-215 (1971). 13. On the Specification of Polarization: D. E. Spencer and E. A. Gaston, III. Eng., 66, No.4,271-279 (1971).

14. 常温域用放射温度計: 白石啓文, 照明学誌, 55_, No.8, 496-505 (1971).

15. Influence de la temerature sur la reponse des photo-multiplicateurs a couche photosensible Sll: F. Gex et J. Tassart, Nouv. Rev. d'Optique Appliquee, 2, No.3, 175-178 (1971).

16. An Efficient Light Collector (L): D. C. Brown, Rev. Sci. Instrum., 42, No.5, 729 (1971).

17. A Monophoton Fluorometer with Energy Discrimination: R. Schuyler and I. Isenberg, Rev. Sci. Instr., 42, No.6, 813-817 (1971).

18. スペクトル線反転法による火災の自動調整式温度測定装置: 木脇久智・中曾根弘侑・佐久間伸夫, 電総研報, 35, No.6, 523-532 (1971).

19. Optical Constants of Scattered Ferrite Films: W. D. Westwood and A. G. Sodler, Can. J. Phys., 49, No.9,

1103-1113 (1971).

20. Measurements of Light Intensity Correlations in the Subnanosecond Region by Photomultipliers: F. T. Arecchi, M. Corti, V. Degiorgio and S. Donati, Opt. Communic. 3, No.4,

284-288 (1971).

14. オプトエレクトロニクス

1. High-Efficiency Electrooptic Q-Switching Using Slow Resetime SCR-Transformer Drive: W. R. Hook, R. P. Hilberg and E. H. Dishington, Proc. IEEE 59, No.7, 1126-1128 (1971). 12A.

2. Reports on Electro-Optics '71 International: Opt. and Laser Tech. 3, Special Supplement May 1971.

3. A New Light Valve for Television Projection: J. A. van Raalte, J.S.M.P.T.E. 80, No.6, 474-476 (1971).

4. Photoconductive Television Camera Tubes—A Survey: W. E. Turk, J.S.M.P.T.E. 80, No.6, 468-474 (1971).

5. Automatic Registration of Color Television Cameras: C. B. B. Wood, J.S.M.P.T.E. 80, No.6, 465-467 (1971). 6. Principles of Binocular 3D Displays with Applications to Television: S. Herman, J.S.M.P.T.E. 80, No.7, 539-544 (1971).

7. Electrohydrodynamic Instabilities in Nematic Liquid Crystals: W. H. De Jeu, C. J. Gerritsma and A. M. Van Boxtel,

Phys. Letters 34A, No.4, 203-204 (1971).

8. Light Modulation by an Electric Field in CdTe: G. A. Babonas, E. Z. Krivayte and A. Yu. Shileyka, Soviet J. Opt. Tech. 37, No.6, 401-402 (1970).

9. Threshold and Power Relations for Optical Radars: F. I. Khaytun and I. A. Nepogodin, Soviet J. Opt. Tech. 37, No.8, 504-506 (1970).

10. A Tuning-Fork Light-Beam Modulator for a Phototracker: E. Ye. Gopp and V. P. Kudinov, Soviet J. Opt. Tech. 37, No. 8, 536-539 (1970).

11. Impulse Excitation of Gap Electroluminescent Diodes: J. S. Jayson and R. W. Dixon, J. Appl. Phys. 42, No.2, 774-782 (1971).

12. N-Fold Joint Photocounting Distribution for Modulated Laser Radiation: Transmission Through the Turbulent Atmosphere: M. C. Teich and S. Rosenberg, Opto-Electronics 3, No.2, 63-76 (1971). 13.

13. Variable Tunneling Excitation of Optical Surface Waves: J. H. Harris and R. Shubert, IEEE Trans. MTT-9, No.3, 269-276 (1971).

14. Systems and Technologies for Solid-State Image Sensors: P. K. Weimer, RCA Rev. 32, No.2, 251-262 (1971). 15. Contrast Thresholds of Image-Intensifier-Aided Eye at Low Field-Luminance Levels: I. P. Csorba, RCA Rev. 32, No. 2, 297-305 (1971).

16. On the Transfer Martix of a Tapered Lenslike Medium: S. Yamamoto and T. Makimoto, Proc. IEEE 59 , No.8, 1254-1255 (1971). 17. 電気光学効果を用いた光ビーム走査: 岡田正勝・入家勝吾, NHK技術研究, 23, No.4,252-268(1971). 18. レーザー二重変調方式によるテレビジョン信号の伝送; 千葉孝雄・元木紀雄・杉浦幸雄, テレビジョン, 25, No.8, 635-640(1971).12B.

19. Optical Waveguide Scattering and Griffith Microcracks: J . H. Harris, D. P. GiaRusso and R. Shubert, Proc. IEEE 59, No.7,1123-1124 (1971).

20. Optical Wave Propagation in Cholesteric Liquid Crystals with Finite Thickness: M. Aihara and H. Inaba, Opt. Communic. 3, No.2, 77-80 (1971).

21. Interband Optical Transitions of Semiconductor in a Uniform Electric Field: E. Yang, Opt. Communic. 3, No.2, 107-110 (1971).

22. Photoconductivity in Amorphous Germanium: J. E. Fischer and T. M. Donovan, Opt. Communic. 3, No.2, 116-118 (1971).

23. Measurement of the Nonlinear Susceptibility Dispersion by Dye Lasers: F. G. Parsons and R. K. Chang, Opt. Communic. 3, No.3, 173-176 (1971). 12—B.

24. Modification of the Total Reflectance Modes in a Dielect-ric Film by One Metal Boundary: A. Otto and W. Sohler, Opt. Communic. 3, No.4, 254-258 (1971).

25. Halfwidth of the Cholesteric Liquid Crystal Reflection Band: L. B. Leder and D. Olechna, Opt. Communic. 3, No.5, 295-298 (1971).

26. Application of Nematic Liquid Crystals to Control the Coherence of Laser Beams: H. Mizuno and S. Tanaka, Opt. Communic. 3, No.5, 320-321 (1971).

光学文献集 No.118

光 学 文 献 集 No.118

光学文献集 No.118