NEW!!! After language correction (02.07.2007) download
O.G.Vlokh
190 years is passed from the first observation of optical activity by Arago and more then 30 years - from the first experimental observation of the first known induced spatial dispersion effect by electrical field - electrogyration. The aim of the article is to show the physical and historical fundamentals founding of the electrogyration and development of studying of this effect in the last thirty years
Key words: electrogyration, optical activity, crystallooptics
doi 10.3116/16091833/2/2/53/2001
1. Agranovich VM and Ginzburg VZ, 979. Crystallooptics with the accounting
of the spatial dispersion and theory of exitons. Nauka, Moscow.
2. Fedorov FI, 1976. Theory of the gyrotropy. Nauka i tekhnika, Minsk.
3. Kizel VA and Burkov VI, 1980. The gyrotropy of crystals. Nauka,
Moscow.
4. Vlokh OG, 1984. The spatial dispersion phenomenas in parametrical
crystallooptics. Vyshcha Shkola, Lviv.
5. Vlokh OG, 1987. Ferroelectrics 67:177.
6. Futama H and Pepinsky R, 1962. J. Phys. Soc. Japan 17: 725.
doi:10.1143/JPSJ.17.725
http://dx.doi.org/10.1143/JPSJ.17.725
7. Zheludev IS, 1964. Crystallography 9: 501.
8. Aizu K, 1964. Phys. Rev. 1933: 1584.
doi:10.1103/PhysRev.133.A1584
http://dx.doi.org/10.1103/PhysRev.133.A1584
9. Shuvalov LA and Ivanov NI, 1964. Crystallography 9: 363.
10. Lenzo PV, Spenser EG and Ballman AA, 1966. Appl. Opt. 5:1688.
11. Lenzo PV and Spenser EG, 1967. Phys. Rev. Lett. 19: 641.
doi:10.1103/PhysRevLett.19.641
http://dx.doi.org/10.1103/PhysRevLett.19.641
12. Moore GF, Lenzo PV, Spenser EG and Ballman AA, 1969. J. Appl. Phys.
40: 2361.
doi:10.1063/1.1657991
http://dx.doi.org/10.1063/1.1657991
13. Shaldin YuV, 1970. Pep. Acad. Sciens. USSR 191: 67.
14. Belogurov DA, Okorashvili TG, Sivokon TA and Shaldin YuV, 1979.
Phys. of Solid State 21: 2524.
15. Vlokh OG, 1970. Ukr.J. Phys. 15: 759.
16. Vlokh OG, 1971. Lett.Exp. and Theor.Phys 13: 118.
17. Vlokh OG, Lazko LA and Nesterenko VYa, 1972. Crystallography 17:
1248.
18. Vlokh OG, Lazko LA, Zheludev IS, 1975. Crystallography 20: 654.
19. Vlokh OG, 1971. Ukr. J. Phys. 16: 734.
20. Vlokh OG and Kobylyanskij VB, 1977. Crystallography 22: 562.
21. Vlokh RO, Pyatak YuA, Skab IP, 1989. Crystallography 34: 498.
22. Vlokh OG, Zheludev IS and Klimov IM, 1975. Rep. Acad. Sciens.USSR
223: 1391.
23. Romanova NF, 1977. Electrooptical effect in the crystalls with
elliptical birefringence. Doctor Thesis Moscow.
24. Kostov MK, Shuvalov LA and Volnyanskij MD, 1979. Crystallography
24.
25. Weber HJ and Huassuhl S, 1974. Phys. Stat. Sol. 65: 633.
26. Weber HJ and Haussuhl S, 1983. Acta Cryst. A32.
27. Weber HJ, 1983. Crystallography 28: 320.
28. Kobayashi J, Takahashi T, Hosakawa T and Uesu Y, 1978. J. Appl.
Phys. 49: 309.
29. Kobayashi J and Uesu Y, 1983. Appl. Cryst. 16: 212.
doi:10.1107/S0021889883010274
http://dx.doi.org/10.1107/S0021889883010274
30. Kobayashi J, Uesu Y and Sonmachi H, 1978. Ferroelectrics 21: 345.
31. Uesu Y, Sonmachi H and Kobayashi J, 1979. Phys. Rev. Lett. 42:
1427.
doi:10.1103/PhysRevLett.42.1427
http://dx.doi.org/10.1103/PhysRevLett.42.1427
32. Kobayashi J, Uesu Y and Yamada Y, 1980. J.Phys. Soc. Japan 49:
113.
33. Uesu Y, Hosokawa T and Kobayashi J, 1977. News Acad.Sciens.USSR
41.
34. Etxebarria J, Ortega J and Breczewski T, 1992. J.Cond.Matter 4:
6851-6858.
doi:10.1088/0953-8984/4/32/019
http://dx.doi.org/10.1088/0953-8984/4/32/019
35. Kukhtarev NV, 1985. Pub. by Inst of Phys Ukr. Acad of Sciens. N85/8
23.
36. Kuktarev NV, Muravyev VV, Semenec TI, 1986. Pub. by Inst of Phys
Ukr. Acad of Sciens. 19: 21.
37. Hermelbracht K and Unruh HG, 1970. Zeit. angew. Phys. 28: 255.
38. Vlokh OG, 1970. Abs. of VII Soviet conference on ferroelectricity
/Voronezh.
39. Vlokh OG, Kutny IV, Lazko LA and Nesterenko VL, 1971. Rep. Acad.
Sciens. USSR 35: 1872.
40. Mao-Jin Chern and Phillips R A, 1972. J. Appl. Phys. 43: 496.
doi:10.1063/1.1661146
http://dx.doi.org/10.1063/1.1661146
41. Iwasaki H and Sugn K, 1971. Appl. Phys. Lett. 1992.
42. Iwasaki H, Miyazawa S, Koizumi H, Sugn K and Niizeki N, 1972. Appl.
Phys. 43: 4907.
doi:10.1063/1.1661044
http://dx.doi.org/10.1063/1.1661044
43. Vlokh OG, Sinyakov EV, Lazko LA, Monya VG and Klimov IM, 1977.
Phys.of Solid State 19: 1031.
44. Konak C, Fousek J and Kursten HD, 1978. Ferroelectrics. 21: 347.
45. Kobayashi J, 1979. Memoris of the School of Science, Engineering
Waseda Univ 40.
46. Kobayashi J and Uesu Y, 1979. Proceedings of the 2nd Meeting on
Ferroelectric Materials and their Applications A-3: 117.
47. Vlokh OG, Klepatch NI and Shopa YI, 1985. Abst. Of the Sixth International
Meeting on Ferroelectrics, Koba, Japan.50.
48. Vlokh OG, Klepatch NI and Shopa YI, 1986. Ferroelectrics.
49. Stasyuk IV and Kotsur SS, 1982. Ed. of the Inst. of Theor. Phys.
Acad Sciens. Ukr.SSR ITP-82-161P Kiev 35.
50. Stasyuk IV and Kotsur SS, 1983. Phys. Slat. Sol. (b) 117: 557.
51. Miller A, 1972. Phys. Rev. 8: 5902.
52. Zilbernstain AH, Kozicyn SYu, Solovyev LE, 1976. Optics and spectroscopy.
41: 513-515.
53. Vlokh OG, 1982. News of Lviv Univ. 16: 5-12.
54. Vlokh OG, Sergatyuk VA, 1986. Rep. Acad. Sciens. USSR. 291: 832-835.
55. Vlokh RO, Pyatak YuA, Skab IP, 1989. News of Acad.Sciens.USSR.
53: 1339-1341.
56. Vlokh RO, Pyatak YuA, Skab IP, 1989. Ukr. J. Phys. 34: 845-846.
57. Vlokh OG, Vlokh RO, 1990. Optics and spectroscopy. 69: 458-459.
58. Akhmanov SA, Zhdanov BV, Zheludev NI, Kovrigin AI, Kuznecov VI,
1979. Lett.J.Exp. and Theor.Phys. 29: 294-298.
59. Zheludev NI, Kostov ZM, 1985. Giant nonlinear polarization self-action
of light in the exciton region of GaAs. Printed by Moscow Univ. 5.
60. Vlokh RO, 1991. Phys. Stat.Sol (b) 168: k47.