Liquid Crystal Displays. Ernst Lueder. Техническая литература. . Читать онлайн. Литмир. LITMIR.BIZ

Liquid Crystal Displays. Ernst Lueder

Читать онлайн.

Информация о произведении:

Название Liquid Crystal Displays

Год выпуска 0

isbn 9781119668008

Автор произведения Ernst Lueder

Жанр Техническая литература

Серия

Издательство John Wiley & Sons Limited

Скачать книгу

alt="equation images"/>

or with ξ₁ and ξ_s in Equation (4.18),

(4.29)

and

(4.30)

with φ from Equation (4.22).

We continue with the normalized matrices M:

(4.31)

Based on Equation (4.17), we can represent T(ε)R(ε) with the known matrices D in Equation (4.26) and M in Equation (4.31) as

(4.32)

[T (ε) R (ε)]^2πd/pε in Equation (4.14) assumes the form

(4.33)

The evaluation of D^2πd/pε, with dε in Equation (4.5) and D in Equation (4.26), provides

(4.34)

K′ in Equation (4.25) leads to

As both the numerator and denominator tend to zero for ε → 0, the application of Hopital’s rule is needed, yielding

(4.35)

The repetition of Hopital’s rule provides

As the denominator of the last equation is identical with lim_{ε → 0}k′/(2π/p) in Equation (4.35), we obtain

(4.36) equation images

ensuring

(4.37) equation images

The limit of M in Equation (4.31) is calculated in the following steps with φ = arctan equation images as the elements mik in the unnormalized matrix M in Equation (4.28) and the magnitudes in Equations (4.29) and (4.30) tend to zero for ε → 0, we choose r₁ = r₂ 1/ε and evaluate the limits of the numerator and denominator in Equation (4.31) separately according to Hopital’s rule. By doing so, we obtain for the numerators

(4.38) equation images

and

With similar calculations as performed for D, we obtain the limit as

(4.39) equation images

and in the same way, also

(4.40) equation images

For the magnitudes the evaluation of the limit value is performed at the square of the magnitudes in Equations (4.29) and (4.30), again leading with similar calculations as for D to

(4.41) equation images

and

(4.42) equation images

Hence, the normalized M is, for ε → 0,

(4.43) equation images

from which, as M is a unitary matrix, we obtain

(4.44) equation images

Inserting Equations (4.29), (4.30), (4.43) and (4.44) into Equation (4.28) provides, for ε → 0,

(4.45) equation images

with

Скачать книгу