Angle-of-arrival variance's dependence on the aperture size for indoor convective turbulence

Damián Gulich; Gustavo Funes; Luciano Zunino; Darío G. Pérez; Mario Garavaglia

doi:10.1016/j.optcom.2007.05.018

Angle-of-arrival variance's dependence on the aperture size for indoor convective turbulence

Damián Gulich, Gustavo Funes, Luciano Zunino, Darío G. Pérez, Mario Garavaglia

Research output: Contribution to journal › Article › peer-review

13 Scopus citations

Abstract

We analyze the angle-of-arrival variance of an expanded and collimated laser beam once it has traveled through an indoor convective turbulence. A continuous position detector is set at the focus of a lens collecting the laser beam. The effect of the different turbulent scales, between the inner and the outer scales, is studied by changing the diameter of a circular pupil before the collector lens. The experimental optical setup follows the design introduced by Masciadri and Vernin [Appl. Opt., 36(6) (1997) 1320]. Tilt data measurements are studied using the fractional Brownian motion model for the turbulent wave-front phase introduced in a previous paper [Pérez et al., J. Opt. Soc. Am. A 21(10) (2004) 1962]. The Hurst exponents associated to different strengths of turbulence are obtained from the here proposed D2H-2 dependence.

Original language	American English
Pages (from-to)	241-246
Number of pages	6
Journal	Optics Communications
Volume	277
Issue number	2
DOIs	https://doi.org/10.1016/j.optcom.2007.05.018
State	Published - 15 Sep 2007
Externally published	Yes

Keywords

Angle-of-arrival variance
Fractional Brownian motion
Hurst exponent
Indoor convective turbulence

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10.1016/j.optcom.2007.05.018

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title = "Angle-of-arrival variance's dependence on the aperture size for indoor convective turbulence",

abstract = "We analyze the angle-of-arrival variance of an expanded and collimated laser beam once it has traveled through an indoor convective turbulence. A continuous position detector is set at the focus of a lens collecting the laser beam. The effect of the different turbulent scales, between the inner and the outer scales, is studied by changing the diameter of a circular pupil before the collector lens. The experimental optical setup follows the design introduced by Masciadri and Vernin [Appl. Opt., 36(6) (1997) 1320]. Tilt data measurements are studied using the fractional Brownian motion model for the turbulent wave-front phase introduced in a previous paper [P{\'e}rez et al., J. Opt. Soc. Am. A 21(10) (2004) 1962]. The Hurst exponents associated to different strengths of turbulence are obtained from the here proposed D2H-2 dependence.",

keywords = "Angle-of-arrival variance, Fractional Brownian motion, Hurst exponent, Indoor convective turbulence, Angle-of-arrival variance, Fractional Brownian motion, Hurst exponent, Indoor convective turbulence",

author = "Dami{\'a}n Gulich and Gustavo Funes and Luciano Zunino and P{\'e}rez, {Dar{\'i}o G.} and Mario Garavaglia",

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AU - Gulich, Damián

AU - Funes, Gustavo

AU - Zunino, Luciano

AU - Pérez, Darío G.

AU - Garavaglia, Mario

PY - 2007/9/15

Y1 - 2007/9/15

N2 - We analyze the angle-of-arrival variance of an expanded and collimated laser beam once it has traveled through an indoor convective turbulence. A continuous position detector is set at the focus of a lens collecting the laser beam. The effect of the different turbulent scales, between the inner and the outer scales, is studied by changing the diameter of a circular pupil before the collector lens. The experimental optical setup follows the design introduced by Masciadri and Vernin [Appl. Opt., 36(6) (1997) 1320]. Tilt data measurements are studied using the fractional Brownian motion model for the turbulent wave-front phase introduced in a previous paper [Pérez et al., J. Opt. Soc. Am. A 21(10) (2004) 1962]. The Hurst exponents associated to different strengths of turbulence are obtained from the here proposed D2H-2 dependence.

AB - We analyze the angle-of-arrival variance of an expanded and collimated laser beam once it has traveled through an indoor convective turbulence. A continuous position detector is set at the focus of a lens collecting the laser beam. The effect of the different turbulent scales, between the inner and the outer scales, is studied by changing the diameter of a circular pupil before the collector lens. The experimental optical setup follows the design introduced by Masciadri and Vernin [Appl. Opt., 36(6) (1997) 1320]. Tilt data measurements are studied using the fractional Brownian motion model for the turbulent wave-front phase introduced in a previous paper [Pérez et al., J. Opt. Soc. Am. A 21(10) (2004) 1962]. The Hurst exponents associated to different strengths of turbulence are obtained from the here proposed D2H-2 dependence.

KW - Angle-of-arrival variance

KW - Fractional Brownian motion

KW - Hurst exponent

KW - Indoor convective turbulence

KW - Angle-of-arrival variance

KW - Fractional Brownian motion

KW - Hurst exponent

KW - Indoor convective turbulence

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JO - Optics Communications

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