Abstract

Analytical expressions of the temporal power spectral models of angle of arrival (AOA) fluctuations are derived using the generalized exponential spectral model for optical waves propagating through weak non-Kolmogorov turbulence. Compared with expressions of temporal power spectral models derived from the general non-Kolmogorov spectral model, the new expressions consider the influences of the inner and outer scales of finite turbulence. Numerical calculations show that large outer scales of turbulence increase the value of the temporal power spectrum of AOA fluctuations in low-frequency regions.

© 2013 Chinese Optics Letters

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2012 (1)

2011 (1)

2010 (3)

2009 (2)

13 L. Tan, W. Du, and J. Ma, Journal of Russian Laser Research 30, 552 (2009).

20 W. Du, S. Yu, L. Tan, J. Ma, Y. Jiang, and W. Xie, Opt. Commun. 282, 705 (2009).

2008 (2)

21 A. Zilberman, E, Golbraikh, and N. S. Kopeika, Appl. Opt. 47, 6385 (2008).

5 A. Zilberman, E. Golbraikh, N. S. Kopeika, A. Virtser, I. Kupershmidt, and Y. Shtemler, Atmos. Res. 88, 66 (2008).

2007 (2)

11 I. Toselli, L. C. Andrews, R. L. Phillips, and V. Ferrero, Proc. SPIE 6551, 65510E (2007).

18 Y. Cheon and A. Muschinski, J. Opt. Soc. Am. A 24, 415 (2007).

2006 (1)

4 M. S. Belen'kii, E. Cuellar, K. A. Hughes, and V. A. Rye, Proc. SPIE 6304, 63040U (2006).

2000 (1)

1997 (1)

3 M. S. Belen'kii, S. J. Karis, J. M. Brown, and R. Q. Fugate, Proc. SPIE 3126, 113 (1997).

1995 (2)

1994 (2)

2 D. T. Kyrazis, J. B. Wissler, D. B. Keating, A. J. Preble, and K. P. Bishop, Proc. SPIE 2120, 43 (1994).

17 P. Hickson, J. Opt. Soc. Am. A 11, 1667 (1994).

1991 (1)

16 D. M. Winker, J. Opt. Soc. Am. A 11, 1568 (1991).

Andrews, L. C.

11 I. Toselli, L. C. Andrews, R. L. Phillips, and V. Ferrero, Proc. SPIE 6551, 65510E (2007).

Bai, X.

Belen'kii, 3 M. S.

3 M. S. Belen'kii, S. J. Karis, J. M. Brown, and R. Q. Fugate, Proc. SPIE 3126, 113 (1997).

Belen'kii, 4 M. S.

4 M. S. Belen'kii, E. Cuellar, K. A. Hughes, and V. A. Rye, Proc. SPIE 6304, 63040U (2006).

Belen'kii, 7 M. S.

Belen'kii, M. S.

Bishop, K. P.

2 D. T. Kyrazis, J. B. Wissler, D. B. Keating, A. J. Preble, and K. P. Bishop, Proc. SPIE 2120, 43 (1994).

Borgnino, J.

Brown, J. M.

3 M. S. Belen'kii, S. J. Karis, J. M. Brown, and R. Q. Fugate, Proc. SPIE 3126, 113 (1997).

Cao, X.

Cheon, 18 Y.

Conan, 15 R.

Cuellar, E.

4 M. S. Belen'kii, E. Cuellar, K. A. Hughes, and V. A. Rye, Proc. SPIE 6304, 63040U (2006).

Cui, 12 L.

Cui, L.

Dong, J.

Du, 20 W.

20 W. Du, S. Yu, L. Tan, J. Ma, Y. Jiang, and W. Xie, Opt. Commun. 282, 705 (2009).

Du, 9 W.

Du, W.

13 L. Tan, W. Du, and J. Ma, Journal of Russian Laser Research 30, 552 (2009).

Ferrero, V.

11 I. Toselli, L. C. Andrews, R. L. Phillips, and V. Ferrero, Proc. SPIE 6551, 65510E (2007).

Fugate, R. Q.

3 M. S. Belen'kii, S. J. Karis, J. M. Brown, and R. Q. Fugate, Proc. SPIE 3126, 113 (1997).

Gobraikh, E.

22 N. Kopeika, A. Zilberman, and E. Gobraikh, Proc. SPIE 7588, 758808 (2010).

Golbraikh, E.

5 A. Zilberman, E. Golbraikh, N. S. Kopeika, A. Virtser, I. Kupershmidt, and Y. Shtemler, Atmos. Res. 88, 66 (2008).

Gurvich, 6 A. S.

Hickson, 17 P.

Hughes, K. A.

4 M. S. Belen'kii, E. Cuellar, K. A. Hughes, and V. A. Rye, Proc. SPIE 6304, 63040U (2006).

Jiang, Y.

9 W. Du, L. Tan, J. Ma, and Y. Jiang, Opt. Express 18, 5763 (2010).

20 W. Du, S. Yu, L. Tan, J. Ma, Y. Jiang, and W. Xie, Opt. Commun. 282, 705 (2009).

Karis, S. J.

3 M. S. Belen'kii, S. J. Karis, J. M. Brown, and R. Q. Fugate, Proc. SPIE 3126, 113 (1997).

Keating, D. B.

2 D. T. Kyrazis, J. B. Wissler, D. B. Keating, A. J. Preble, and K. P. Bishop, Proc. SPIE 2120, 43 (1994).

Kopeika, 22 N.

22 N. Kopeika, A. Zilberman, and E. Gobraikh, Proc. SPIE 7588, 758808 (2010).

Kopeika, N. S.

21 A. Zilberman, E, Golbraikh, and N. S. Kopeika, Appl. Opt. 47, 6385 (2008).

5 A. Zilberman, E. Golbraikh, N. S. Kopeika, A. Virtser, I. Kupershmidt, and Y. Shtemler, Atmos. Res. 88, 66 (2008).

Kupershmidt, I.

5 A. Zilberman, E. Golbraikh, N. S. Kopeika, A. Virtser, I. Kupershmidt, and Y. Shtemler, Atmos. Res. 88, 66 (2008).

Kyrazis, 2 D. T.

2 D. T. Kyrazis, J. B. Wissler, D. B. Keating, A. J. Preble, and K. P. Bishop, Proc. SPIE 2120, 43 (1994).

Liu, J.

Ma, J.

9 W. Du, L. Tan, J. Ma, and Y. Jiang, Opt. Express 18, 5763 (2010).

20 W. Du, S. Yu, L. Tan, J. Ma, Y. Jiang, and W. Xie, Opt. Commun. 282, 705 (2009).

13 L. Tan, W. Du, and J. Ma, Journal of Russian Laser Research 30, 552 (2009).

Martin, F.

Muschinski, A.

Phillips, R. L.

11 I. Toselli, L. C. Andrews, R. L. Phillips, and V. Ferrero, Proc. SPIE 6551, 65510E (2007).

Preble, A. J.

2 D. T. Kyrazis, J. B. Wissler, D. B. Keating, A. J. Preble, and K. P. Bishop, Proc. SPIE 2120, 43 (1994).

Rye, V. A.

4 M. S. Belen'kii, E. Cuellar, K. A. Hughes, and V. A. Rye, Proc. SPIE 6304, 63040U (2006).

Shao, Y.

Shtemler, Y.

5 A. Zilberman, E. Golbraikh, N. S. Kopeika, A. Virtser, I. Kupershmidt, and Y. Shtemler, Atmos. Res. 88, 66 (2008).

Tan, 13 L.

13 L. Tan, W. Du, and J. Ma, Journal of Russian Laser Research 30, 552 (2009).

Tan, L.

9 W. Du, L. Tan, J. Ma, and Y. Jiang, Opt. Express 18, 5763 (2010).

20 W. Du, S. Yu, L. Tan, J. Ma, Y. Jiang, and W. Xie, Opt. Commun. 282, 705 (2009).

Toselli, 11 I.

11 I. Toselli, L. C. Andrews, R. L. Phillips, and V. Ferrero, Proc. SPIE 6551, 65510E (2007).

Virtser, A.

5 A. Zilberman, E. Golbraikh, N. S. Kopeika, A. Virtser, I. Kupershmidt, and Y. Shtemler, Atmos. Res. 88, 66 (2008).

Wang, J.

Winker, 16 D. M.

16 D. M. Winker, J. Opt. Soc. Am. A 11, 1568 (1991).

Wissler, J. B.

2 D. T. Kyrazis, J. B. Wissler, D. B. Keating, A. J. Preble, and K. P. Bishop, Proc. SPIE 2120, 43 (1994).

Xie, W.

20 W. Du, S. Yu, L. Tan, J. Ma, Y. Jiang, and W. Xie, Opt. Commun. 282, 705 (2009).

Xue, 14 B.

Xue, B.

Xue, W.

Yang, Y.

Yu, S.

20 W. Du, S. Yu, L. Tan, J. Ma, Y. Jiang, and W. Xie, Opt. Commun. 282, 705 (2009).

Zhou, 8 X.

Zhou, F.

Ziad, A.

Zilberman, 21 A.

Zilberman, 5 A.

5 A. Zilberman, E. Golbraikh, N. S. Kopeika, A. Virtser, I. Kupershmidt, and Y. Shtemler, Atmos. Res. 88, 66 (2008).

Zilberman, A.

22 N. Kopeika, A. Zilberman, and E. Gobraikh, Proc. SPIE 7588, 758808 (2010).

Appl. Opt. (1)

Atmos. Res. (1)

5 A. Zilberman, E. Golbraikh, N. S. Kopeika, A. Virtser, I. Kupershmidt, and Y. Shtemler, Atmos. Res. 88, 66 (2008).

Chin. Opt. Lett. (1)

J. Opt. Soc. Am. A (5)

Journal of Russian Laser Research (1)

13 L. Tan, W. Du, and J. Ma, Journal of Russian Laser Research 30, 552 (2009).

Opt. Commun. (1)

20 W. Du, S. Yu, L. Tan, J. Ma, Y. Jiang, and W. Xie, Opt. Commun. 282, 705 (2009).

Opt. Express (3)

Opt. Lett. (1)

Proc. SPIE (5)

22 N. Kopeika, A. Zilberman, and E. Gobraikh, Proc. SPIE 7588, 758808 (2010).

11 I. Toselli, L. C. Andrews, R. L. Phillips, and V. Ferrero, Proc. SPIE 6551, 65510E (2007).

2 D. T. Kyrazis, J. B. Wissler, D. B. Keating, A. J. Preble, and K. P. Bishop, Proc. SPIE 2120, 43 (1994).

3 M. S. Belen'kii, S. J. Karis, J. M. Brown, and R. Q. Fugate, Proc. SPIE 3126, 113 (1997).

4 M. S. Belen'kii, E. Cuellar, K. A. Hughes, and V. A. Rye, Proc. SPIE 6304, 63040U (2006).

Other (3)

10 L. C. Andrews and R. L. Phillips, Laser Beam Propagation through Random Media (SPIE Optical Engineering Press, Bellingham, 2005).

1 V. I. Tatarskii, The Ef fects of the Turbulent Atmosphere on Wave Propagation (trans. for NOAA by Israel Program for Scientific Translations, Jerusalem, 1971).

19 L. C. Andrews, Special Functions of Mathematics for Engineers, (2nd ed). (SPIE Optical Engineering Press, Bellingham, Wash., 1998).

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