Sistema para Medição da Constante de Estrutura do Índice de Refração para Enlaces Ópticos em Espaço Livre Baseado em Triangulação por Amplitude

Abstract: Resumo-A propagação de feixes ópticos em espaço livre em meios turbulentos tem sido tema de investigações teórica e experimental nos últimos anos. Flutuações aleatórias no índice de refração causam alterações na forma de propagação da luz e como conseqüência efeitos são observados no feixe no plano receptor. O objetivo deste trabalho é mostrar os avanços no desenvolvimento de uma técnica capaz de medir os efeitos atmosféricos em enlaces FSO. A técnica permite a medida do C n 2 , calculando, em tempo real, o de… Show more

“…This paper describes new arrangements that in fact represent an evolution between 2009 and 2015 of the first device originally intended to carried out indoor atmospheric turbulence measurements [14][15][16][17][18][19]. The first experiment (2009) physically simulated the movement of the beam through translation stages.…”

“…In order to mitigate the translation stages error, a second experimental arrangement (2011) was developed in which it was decided to move the light source with a stepper motor instead of moving the screen. Therefore, it was possible to eliminate the error caused by the movement of the translation stages, leaving only the error induced by the noise [18]. However, the movement performed by the stepper motor corresponded to approximately 3 Hz, which is significantly lower than the 200 Hz typical frequency of the beam wander [1].…”

Measurements of indoor/outdoor atmospheric turbulence through optical triangulation method

“…This paper describes new arrangements that in fact represent an evolution between 2009 and 2015 of the first device originally intended to carried out indoor atmospheric turbulence measurements [14][15][16][17][18][19]. The first experiment (2009) physically simulated the movement of the beam through translation stages.…”

“…In order to mitigate the translation stages error, a second experimental arrangement (2011) was developed in which it was decided to move the light source with a stepper motor instead of moving the screen. Therefore, it was possible to eliminate the error caused by the movement of the translation stages, leaving only the error induced by the noise [18]. However, the movement performed by the stepper motor corresponded to approximately 3 Hz, which is significantly lower than the 200 Hz typical frequency of the beam wander [1].…”

Measurements of indoor/outdoor atmospheric turbulence through optical triangulation method

Experimental measurements of atmospheric Turbulence through optical triangulation method for FSO applications

A New Triangulation-Like Technique for the Evaluation of the Refractive Index Structure Constant $(C_{n}^{2})$ in Free-Space Optical Links