Evolutionary development of advanced liquid crystal spatial light modulators

N. Collings; W. A. Crossland; P. J. Ayliffe; D. G. Vass; I. Underwood

doi:10.1364/AO.28.004740

Applied Optics
Vol. 28,
Issue 22,
pp. 4740-4747
(1989)
•https://doi.org/10.1364/AO.28.004740

Evolutionary development of advanced liquid crystal spatial light modulators

N. Collings, W. A. Crossland, P. J. Ayliffe, D. G. Vass, and I. Underwood

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N. Collings, W. A. Crossland, P. J. Ayliffe, D. G. Vass, and I. Underwood, "Evolutionary development of advanced liquid crystal spatial light modulators," Appl. Opt. 28, 4740-4747 (1989)

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Abstract

Taking into account recent developments and present trends in devices and component technologies, the future development of electrically addressed liquid crystal spatial light modulators is considered. In particular, the combination of single-crystal-silicon active backplane and chiral smectic C liquid crystal technologies is shown to be promising. The ultimate limitations of such technologies for producing faster devices of higher complexity and functionality are assessed, and an advanced device, presently under development, is described.

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Feature Size (μm)	Approx breakdown voltage (V)	Max clock speed at 5 V (MHz)	Gate delay (ns)
6	20	20	5–10
3	12–14	50	2–5
1.5	6–9	100	0.5

Metal Ω/□	.025
Poly silicon Ω/□	40
Metal cap to substrate	3 × 10⁻⁵ Fm⁻²
Poly silicon cap to substrate	6 × 10⁻⁵ Fm⁻²
LC capacitance	2.2 × 10⁻⁵ Fm⁻²
Gate channel capacitance (per transistor)	6.2 × 10⁻¹⁵F
Transistor on resistance	15kΩ
Line driver output impedance	1kΩ
Max volts	10V
Gate/source width	3μm
Active area	1 cm × 1 cm

Feature Size (μm)	Approx breakdown voltage (V)	Max clock speed at 5 V (MHz)	Gate delay (ns)
6	20	20	5–10
3	12–14	50	2–5
1.5	6–9	100	0.5

Metal Ω/□	.025
Poly silicon Ω/□	40
Metal cap to substrate	3 × 10⁻⁵ Fm⁻²
Poly silicon cap to substrate	6 × 10⁻⁵ Fm⁻²
LC capacitance	2.2 × 10⁻⁵ Fm⁻²
Gate channel capacitance (per transistor)	6.2 × 10⁻¹⁵F
Transistor on resistance	15kΩ
Line driver output impedance	1kΩ
Max volts	10V
Gate/source width	3μm
Active area	1 cm × 1 cm

Abstract

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Tables (2)

Equations (1)

Applied Optics