3 Chapter 4Figure 4.1 The general twisted nematic LCD with twist angle βFigure 4.2 The propagation of light from the Jones vector J1 at the input to the Jones vector Os at the output through the transmission matrices Tv and the rotation matrices RvFigure 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)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)Figure 4.5 Angles and coordinates for an STN displayFigure 4.6 Transmitted luminance and midlayer tilt versus the voltage across an STN cell with a twist of β = 240°, an off-voltage of 2.58V and an on-voltage of 2.75V for addressing 240 lines (Reproduced from Scheffer and Nehring, 1998 with permission of Annual Reviews.)Figure 4.7 Midlayer tilt versus voltage of an STN cell with twist angle β as a parameter (Reproduced from Scheffer and Nehring, 1998 with permission of Annual Reviews.)Figure 4.8 The influence of the pretilt angle on the electro-distortional curve of the midlayer in an STN cell (Reproduced from Scheffer and Nehring, 1998 with permission of Annual Reviews.)Figure 4.9 Transmitted spectrum of a 240° STN display with the addressing voltage as a parameter (Reproduced from Scheffer and Nehring, 1998 with permission of Annual Reviews.)Figure 4.10 The reduced intensity of a mixed mode TN displayFigure 4.11 Incident (—) and reflected (- - -) elliptically polarized light at the metallic mirror of a reflective cellFigure 4.12 The reduced intensity of a mixed mode TN display versus λ = πdΔn/a with Δn (VLC)Figure 4.13 The tilt of the LC molecules under the influence of a voltage VLC for Δε > 0
4 Chapter 5Figure 5.1 The Poincaré sphere as a description of polarizationFigure 5.2 The complex plane for χ and the pertinent polarizationsFigure 5.3 Jones vector J with its complex components Jx and Jy and the unity vectors r and l for circular polarization
5 Chapter 6Figure 6.1 The direction of
and of the ordinary beam and of and of the extraordinary beam in