Optomechanics with Quantum Vacuum Fluctuations
暫譯: 量子真空波動的光機械學
Xu, Zhujing
- 出版商: Springer
- 出版日期: 2024-10-18
- 售價: $4,260
- 貴賓價: 9.5 折 $4,047
- 語言: 英文
- 頁數: 112
- 裝訂: Quality Paper - also called trade paper
- ISBN: 3031430549
- ISBN-13: 9783031430541
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相關分類:
量子 Quantum
海外代購書籍(需單獨結帳)
相關主題
商品描述
This thesis presents the first realization of non-reciprocal energy transfer between two cantilevers by quantum vacuum fluctuations. According to quantum mechanics, vacuum is not empty but full of fluctuations due to zero-point energy. Such quantum vacuum fluctuations can lead to an attractive force between two neutral plates in vacuum - the so-called Casimir effect - which has attracted great attention as macroscopic evidence of quantum electromagnetic fluctuations, and can dominate the interaction between neutral surfaces at small separations. The first experimental demonstration of diode-like energy transport in vacuum reported in this thesis is a breakthrough in Casimir-based devices. It represents an efficient and robust way of regulating phonon transport along one preferable direction in vacuum. In addition, the three-body Casimir effects investigated in this thesis were used to realize a transistor-like three-terminal device with quantum vacuum fluctuations. These two breakthroughs pave the way for exploring and developing advanced Casimir-based devices with potential applications in quantum information science. This thesis also includes a study of the non-contact Casimir friction, which will enrich the understanding of quantum vacuum fluctuations.
商品描述(中文翻譯)
這篇論文展示了通過量子真空波動實現兩個懸臂梁之間非互惠能量轉移的首次實現。根據量子力學,真空並不是空的,而是充滿了由零點能量引起的波動。這種量子真空波動可以在真空中導致兩個中性板之間的吸引力——所謂的卡西米爾效應——這引起了人們對量子電磁波動的宏觀證據的極大關注,並且在小間距下可以主導中性表面之間的相互作用。本論文報告的在真空中類似二極體的能量傳輸的首次實驗演示是基於卡西米爾效應的裝置的一項突破。它代表了一種有效且穩健的方式來調節在真空中沿著一個優選方向的聲子傳輸。此外,本論文研究的三體卡西米爾效應被用來實現一種類似晶體管的三端裝置,利用量子真空波動。這兩項突破為探索和開發具有潛在應用於量子信息科學的先進卡西米爾基礎裝置鋪平了道路。本論文還包括對非接觸卡西米爾摩擦的研究,這將豐富對量子真空波動的理解。
作者簡介
Zhujing Xu is currently a Postdoctoral Fellow at Harvard University. She received her B.S. in Physics from University of Science and Technology of China in 2016, and her Ph.D. in Physics from Purdue University in 2022. She has worked on levitated optomechanics and solid-state spins, both in experiments and theory from 2016-2018. In 2018, she started to build a vacuum AFM system in the lab to study quantum vacuum fluctuations and demonstrate phonon energy transfer across the vacuum, which is the content of this thesis.
作者簡介(中文翻譯)
朱晶徐目前是哈佛大學的博士後研究員。她於2016年獲得中國科學技術大學的物理學學士學位,並於2022年在普渡大學獲得物理學博士學位。她在2016年至2018年間從事懸浮光機械學和固態自旋的實驗與理論研究。2018年,她開始在實驗室建立一個真空原子力顯微鏡(AFM)系統,以研究量子真空波動並展示聲子能量在真空中的傳遞,這也是本論文的內容。
