Mathematical Methods in Liquid Crystal Optics and Lens Design

Stachura, Eric

  • 出版商: Springer
  • 出版日期: 2024-08-21
  • 售價: $4,800
  • 貴賓價: 9.5$4,560
  • 語言: 英文
  • 頁數: 190
  • 裝訂: Hardcover - also called cloth, retail trade, or trade
  • ISBN: 3031466136
  • ISBN-13: 9783031466137
  • 相關分類: 光學 Optics
  • 海外代購書籍(需單獨結帳)

相關主題

商品描述

Freeform lens design has numerous applications in imaging, aerospace, and biomedicine. Due to recent technological advancements in precision cutting and grinding, the manufacturing of freeform optical lenses with very high precision is now possible. However, there is still a significant lack of mathematical literature on the subject, and essentially none related to liquid crystals. Liquid crystals are appealing for use in imaging due to their flexibility and unique electro-optical properties. This book seeks to fill a gap in mathematical literature and attract focus to liquid crystals for freeform lens design.

In particular, this book provides a rigorous mathematical perspective on liquid crystal optics with a focus on ray tracing in the geometric optics regime. A mathematical foundation, especially involving variational methods, is set in order to study lens design and ray tracing problems in liquid crystals. As an application, a lens design problem is posed and solved for the case of a simple director field.

Another imaging topic addressed in this book is absolute instruments. Absolute instruments are devices which image stigmatically, i.e. without any optical aberrations. These instruments cannot be designed through transformation optics, and until recently, only a handful of examples were known. Mathematically, this is a largely untapped area of research, yet the applications are profound. In particular, this book illustrates the mathematical challenges of obtaining absolute instruments in the context of liquid crystals. As such we also propose a weakening of the notion of absolute instrument to allow for a wider class of devices to image "almost" stigmatically. Along the way, we make connections between lens design problems and some perhaps unexpected areas of mathematics, including nonlinear partial differential equations, Riemannian geometry, and dynamical systems.

Finally, the book describes a number of open directions (of which there are many), revealing the richness of this area which lies at the interface of geometric optics and variational methods for liquid crystals. The target audience is mathematicians with a background in analysis or differential equations, but not necessarily electromagnetism or geometric optics. Additionally, mathematics students interested in expanding beyond "classical" variational problems in liquid crystals will be interested in the plethora of new research directions.

商品描述(中文翻譯)

自由曲面鏡片設計在影像、航空航天和生物醫學等領域有眾多應用。由於近年來在精密切割和研磨技術方面的技術進步,現在可以實現非常高精度的自由曲面光學鏡片製造。然而,在這方面仍然存在顯著的數學文獻缺乏,尤其是與液晶相關的文獻幾乎沒有。液晶由於其靈活性和獨特的電光性質,在影像方面具有吸引力。本書旨在填補數學文獻的空白,並將焦點引向液晶在自由曲面鏡片設計中的應用。

具體而言,本書從嚴謹的數學角度探討液晶光學,重點放在幾何光學領域的光線追蹤上。為了研究液晶中的鏡片設計和光線追蹤問題,建立了一個數學基礎,特別涉及變分方法。作為一個應用,提出了一個簡單導向場的鏡片設計問題並加以解決。

本書還討論了另一個影像主題,即絕對儀器。絕對儀器是能夠無光學像差成像的設備。這些儀器無法通過變換光學設計,直到最近,只有少數幾個例子被知曉。從數學上講,這是一個尚未開發的研究領域,但應用非常深遠。具體而言,本書說明了在液晶背景下獲得絕對儀器的數學挑戰。因此,我們還提出了對絕對儀器概念的放寬,以允許更廣泛的設備類型實現“幾乎”無像差成像。在此過程中,我們將鏡片設計問題與一些可能意想不到的數學領域,包括非線性偏微分方程、黎曼幾何和動力系統,建立了聯繫。

最後,本書描述了許多開放的方向(其中有很多),展示了這個介於幾何光學和液晶變分方法之間的領域的豐富性。目標讀者是具有分析或微分方程背景的數學家,但不一定具備電磁學或幾何光學背景。此外,對於有興趣擴展“傳統”液晶變分問題的數學學生來說,本書提供了豐富的新研究方向。

作者簡介

Eric Stachura

Kennesaw State University

Department of Mathematics

Marietta, GA

United States of America

作者簡介(中文翻譯)

Eric Stachura
肯尼索州立大學
數學系
Marietta, GA
美國