(a) What will happen to the output light when a linearly polarized light is incident on a half- wave plate (HWP) as shown in Fig. 2a? How about when we rotate the HWP? 2/2 plate ? Fig. 2a (b) If we replace the half-wave plate with quarter-wave plate (QWP), what will happen to the output light when we rotate the QWP? 2/4 plates ? Fig. 2b (c) Show that with a QWP and a HWP as shown in Fig. 2c, how we can convert any linearly polarized light into any elliptically polarized light, or the other way around. /4 plates /2 plates Fig. 2c

(a) What will happen to the output light when a linearly polarized light is incident on a half- wave plate (HWP) as shown in Fig. 2a? How about when we rotate the HWP? 2/2 plate ? Fig. 2a (b) If we replace the half-wave plate with quarter-wave plate (QWP), what will happen to the output light when we rotate the QWP? 2/4 plates ? Fig. 2b (c) Show that with a QWP and a HWP as shown in Fig. 2c, how we can convert any linearly polarized light into any elliptically polarized light, or the other way around. /4 plates /2 plates Fig. 2c

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Question

(a) What will happen to the output light when a linearly polarized light is incident on a half-
wave plate (HWP) as shown in Fig. 2a? How about when we rotate the HWP?
2/2 plate
?
Fig. 2a
(b) If we replace the half-wave plate with quarter-wave plate (QWP), what will happen to the
output light when we rotate the QWP?
2/4 plates
?
Fig. 2b
(c) Show that with a QWP and a HWP as shown in Fig. 2c, how we can convert any linearly
polarized light into any elliptically polarized light, or the other way around.
/4 plates /2 plates
Fig. 2c

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