Physics, asked by RavanKumar4667, 19 hours ago

The experiment can be described as follows: An unpolarized light is seen propagating in free
space along the -direction. The unpolarized light become polarized upon entering the linear
polarizer where its Transmission Axis (TA) is parallel to the principle -axis. The amplitude
of the polarized light was found to be 10 V/m. The polarization state of the light would be
further changed upon entering the Kerr Cell and the quarter-wave plate (QWP).
The Kerr cell has the Kerr constant of 24 pm/V2
; the width between electrodes were 1 cm; and
light propagate as far as 3 cm into the Kerr cell prior to emerging from the other end.
(a). Determine the necessary voltage to induce a polarization of 60 degrees (measured from
the -axis in the counter clockwise direction).

Answers

Answered by itzBGMIFLAMExx
0

Answer:

The experiment can be described as follows: An unpolarized light is seen propagating in free

space along the -direction. The unpolarized light become polarized upon entering the linear

polarizer where its Transmission Axis (TA) is parallel to the principle -axis. The amplitude

of the polarized light was found to be 10 V/m. The polarization state of the light would be

further changed upon entering the Kerr Cell and the quarter-wave plate (QWP).

The Kerr cell has the Kerr constant of 24 pm/V2

; the width between electrodes were 1 cm; and

light propagate as far as 3 cm into the Kerr cell prior to emerging from the other end.

(a). Determine the necessary voltage to induce a polarization of 60 degrees (measured from

the -axis in the counter clockwise direction).

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