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Issue 11, 2024
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2005

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Water surface structures observed using infrared imaging

 a,  a,  a, b
a Institute for Theoretical and Experimental Biophysics, Russian Academy of Sciences, Institutskaya str. 3, Pushchino, Moscow Region, 142290, Russian Federation
b Institute of Cell Biophysics, Russian Academy of Sciences, ul. Institutskaya 3, Pushchino, Moscow Region, 142290, Russian Federation

Modern infrared focal plant array cameras with thermal sensitivities up to 0.01-0.02 °C have made it possible to form a novel view of various physical, chemical, and biological processes that involve both the heat production and mobility of fluids affected by local thermal gradients. The mobility of water is important, especially in studying the formation mechanisms of water structures due to Rayleigh-Bénard convection. Various water structures can successfully be studied using infrared imaging.

Fulltext pdf (590 KB)
Fulltext is also available at DOI: 10.1070/PU2005v048n11ABEH004685
PACS: 07.57.−c, 42.27.Te, 68.03.−g (all)
DOI: 10.1070/PU2005v048n11ABEH004685
URL: https://ufn.ru/en/articles/2005/11/d/
000236165700004
2005PhyU...48.1151I
Citation: Ivanitskii G R, Deev A A, Khizhnyak E P "Water surface structures observed using infrared imaging" Phys. Usp. 48 1151–1159 (2005)
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Оригинал: Иваницкий Г Р, Деев А А, Хижняк Е П «Структуры на поверхности воды, наблюдаемые с помощью инфракрасной техники» УФН 175 1207–1216 (2005); DOI: 10.3367/UFNr.0175.200511e.1207

References (50) ↓ Cited by (14)

  1. Gossorg Zh Infrakrasnaya Termografiya. Osnovy, Tekhnika, Primenenie (M.: Mir, 1988)
  2. Kovalev A V, Fedchishin V G, Shcherbakov M I Spetsial’naya Tekhnika (3) 13 (1999); Kovalev A V, Fedchishin V G, Shcherbakov M I Spetsial’naya Tekhnika (4) 19 (1999)
  3. Pevtsov E, Chernokozhin V Elektronnye Komponenty (1) 32 (2001); Pevtsov E, Chernokozhin V Elektronnye Komponenty (2) 30 (2001); Pevtsov E, Chernokozhin V Elektronnye Komponenty (3) 12 (2001)
  4. Breen T B et al. Proc. SPIE 3436 530 (1998)
  5. Pengelley R, Hewish M "In the heat of the night" Jane’s Int. Defense Rev. 34 (10) 49 (2001)
  6. Ivanitskii G R Vest. Ross. Akad. Nauk 76 (2006), v pechati
  7. Ivanitskii G R i dr. Dokl. Ross. Akad. Nauk 393 419 (2003)
  8. Ivanitskii G R i dr. "Issledovanie mikrotsirkulyatsii krovi s pomoshch’yu sovremennykh metodov termografii pr vvedenii perftorana" Perftoruglerodnye Soedineniya v Meditsine i Biologii (Pod red. G R Ivanitskogo, E B Zhiburta, E I Maevskogo) (Pushchino, 2004) p. 10
  9. Ivanitskii G R i dr. Dokl. Ross. Akad. Nauk 398 709 (2004)
  10. Getling A V Usp. Fiz. Nauk 161 (9) 1 (1991); Getling A V Sov. Phys. Usp. 34 737 (1991)
  11. Bénard H Rev. Gén. Sci. Pures Appl. 11 1261 (1900); Bénard H Rev. Gén. Sci. Pures Appl. 11 1309 (1900)
  12. Gollub J P, McCarriar A R, Steinman J F J. Fluid Mech. 125 259 (1982)
  13. Wesfreid J E, Zaleski S (Eds) Cellular Structures In Instabilities (Berlin: Springer-Verlag, 1984) p. 33
  14. Cui Q, Smith V H (Jr) J. Chem. Phys. 113 10240 (2000)
  15. Mishima O, Stanley H E Nature 396 329 (1998)
  16. Montrose C J et al. J. Chem. Phys. 60 5025 (1974)
  17. Busse F H J. Fluid Mech. 52 97 (1972)
  18. Clever R M, Busse F H J. Fluid Mech. 65 625 (1974)
  19. Busse F H Rep. Prog. Phys. 41 1929 (1978)
  20. Busse F H, Clever R M J. Fluid Mech. 102 75 (1981)
  21. Krishnamurti R J. Fluid Mech. 42 295 (1970)
  22. Krishnamurti R J. Fluid Mech. 60 285 (1973)
  23. Busse F G Gidrodinamicheskie Neustoichivosti i Perekhod k Turbulentnosti (Pod red. Kh Suinneri, Dzh Gollaba) (M.: Mir, 1984) p. 124
  24. Getling A V Konvektsiya Releya - Benara. Struktury i Dinamika (M.: Editorial URSS, 1999)
  25. Rayleigh, Lord Philos. Mag. 32 529 (1916)
  26. Rayleigh, Lord Proc. R. Soc. London A 93 148 (1916)
  27. Gollub J P, McCarriar A R, Steinman J F J. Fluid Mech. 125 259 (1982)
  28. Heutmaker M S, Gollub J P Phys. Rev. A 35 242 (1987)
  29. Ahlers G, Cannell D S, Steinberg V Phys. Rev. Lett. 54 1373 (1985)
  30. Khaken G Sinergetika (M.: Mir, 1980)
  31. Ivanitskii G R, Krinskii V I, Sel’kov E E Matematicheskaya Biofizika Kletki (M.: Nauka, 1978)
  32. Eidel’man E D Sorosovskii Obrazovatel’nyi Zhurn. 6 (5) 94 (2000)
  33. Zaikin A N, Zhabotinsky A M Nature 225 535 (1964)
  34. Ivanitsky G R et al. Biol. Rev. Sec. D 2 279 (1981)
  35. Krinskii V I, Mikhailov A S Avtovolny (Ser. Fizika, Vyp. 10) (M.: Znanie, 1984) p. 28
  36. Assenheimer M, Steinberg V Nature 367 345 (1994)
  37. Ivanitskii G R, Medvinskii A B, Tsyganov M A Usp. Fiz. Nauk 164 1041 (1994); Ivanitskii G R, Medvinskii A B, Tsyganov M A Phys. Usp. 37 961 (1994)
  38. Somerscales E F C, Dougherty T S J. Fluid Mech. 42 755 (1970)
  39. Ivanitskii G R i dr. Dokl. Ross. Akad. Nauk 374 548 (2000)
  40. Ivanitskii G R i dr. Dokl. Ross. Akad. Nauk 375 685 (2000)
  41. Ivanitskii G R, Kravchenko V V, Tsyganov M A Dokl. Ross. Akad. Nauk 383 263 (2002)
  42. Stoilov Yu Yu Langmuir 14 5685 (1998)
  43. Stoilov Yu Yu Usp. Fiz. Nauk 170 41 (2000); Stoilov Yu Yu Phys. Usp. 43 39 (2000)
  44. Matsuo M, Otosi S Soedineniya Ftora (M.: Mir, 1990)
  45. Simons J H (Ed.) Fluorin Chemistry (New York: Academic Press, 1964)
  46. Sumino Y et al. Phys. Rev. Lett. 94 068301 (2005)
  47. Ivanitskii G R i dr. "Termograficheskoe issledovanie dinamiki dissipativnykh struktur v sisteme iz nesmeshivaemykh zhidkostei" v Sb. Gorizonty Biofiziki: ot Teorii k Praktike (Pod red. G R Ivanitskogo) (Pushchino, 2003) p. 52
  48. Ostrovskii V M i dr. Voda: Indikatornye Sistemy (M.: VINITI, 2002)
  49. Smirnova M V Mire Nauki (11) 24 (2003)
  50. Potapova T V Mire Nauki (11) 78 (2003)
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