According to Equation (4.61), the blocking of light with λ0 = 550 nm requires with Δn = 0 15 a thickness d = 3.1 μ when working at the first minimum.
Figure 4.3 The intensity of light passing through a non-addressed TN-LCD with twist angle β = π/2 with a = 2dΔn/λ according to Equation (4.59)
Extinction of the light in Figure 4.3 occurs only for one wavelength λ. Neighbouring wavelengths can pass, which light up the black state with a bluish-yellowish tint. Hence, this normally black mode provides a poor black state. It will be enhanced by compensation foils introduced in Chapter 6.
In the addressed state with the maximum voltage around 6V all LC molecules have aligned for Δε > 0 in parallel to the electric field. The incoming linearly polarized light experiences no birefringence and arrives unchanged at the parallel analyser, which can be passed. The transmission T of light for this normally black cell is depicted versus the reduced voltage across the cell in Figure 2.13.
In the operation with crossed polarizers leading to the normally white mode, the analyser lies in the σ-direction in Figure 4.1. The pertinent Jones vector Osσ for the field-free state is given in Equation (4.57), from which the intensity Iσ passing the analyser follows as
(4.62)
with γ in Equation (4.56). This leads to
with a in Equation (4.55).
This reduced intensity is plotted versus a in Figure 4.4. The values are considerably larger than in the normally black mode in Figure 4.3. If the cell is fully addressed, the LC molecules orient themselves parallel to the field, and hence the incoming light, linearly polarized along the x-axis, reaches the crossed analyser unchanged, and is hence blocked independent of the wavelength. This generates an excellent black state if a field is applied. Therefore, the normally white cell is the preferred LCD.
The black state is independent of the thickness d. In the white state in Equation (4.63) and in Figure 4.4, the first maximum of the intensity lies in the vicinity of the first maximum of the cos term occurring at
Figure 4.4 The intensity of light passing through a non-addressed normally white TN-LCD with twist angle β = π/2 and with a = 2dΔn/λ according to Equation (4.63)
4.2.2 The supertwisted nematic LC cell (STN-LCD)
Linear polarized light is fed into the STN cell (Scheffer and Nehring, 1998) again with α = 0 in Figure 4.1. The twist angle β at z = d is, however, β > π/2, with values typically between π and 3(π/2). With the twist angle β in Equation (4.49) and a in Equation (4.48), we rewrite γ in Equation (4.47) with p from Equation (4.49) as
With γ in Equation (4.64), and β0 in Equation (4.50), Equation (4.52) governing the field-free state provides for the coordinates x′ and y′ with the angle ψ in Figure 4.1, and again, drawn in Figure 4.5
(4.65)
leading to
Figure 4.5 Angles and coordinates for an STN display
and