基本素養 Basic Literacy

人文與倫理素養
Quality of humanism and ethics.
誠信素養
Integrity.
社會關懷
Care for society.

核心能力 Competence

工程領域之專業知識
Professional knowledge in engineering field.
策劃及執行專題研究之能力
Plan and execute case study.
撰寫專業論文之能力
Write professional essays.
創新思考及獨立解決問題之能力
Creative thinking and independent problem-solving ability.
與不同領域人員協調整合之能力
Integration and negotiation with other fields’ experts.
廣闊之國際視野
Wide global vision.
領導、管理及規劃的能力
Leadership, management, arrangement ability.
終身自我學習成長之能力
Lifelong self-learning ability.
國際視野
Global vision.

課程概述 Course Description

量子光子學探討單光子量子狀態的製造、放射、傳遞、轉換、放大等基本原理,亦包含了相關工程化,如積體化,與同調控制光子系統之實務方法,其成為重要量子致能技術之關鍵,例如量子通訊、量子感測、量子模擬,與量子資訊處理等量子技術;於本課程中將介紹量子光子學核心基本概念,與其於相關量子技術應用上之實現方法,內容涵蓋以下五個重點:1.工程化單光子系統之重要性;2.古典工程光學與量子光子學之差異;3.光子之基本性質;4.單光子與糾纏光子之製造、操控與偵測原理與方法;5.積體化光子量子技術。
Quantum photonics explores the basic principles of single-photon quantum state manufacturing, radiation, transfer, conversion, and amplification. It also includes related engineering, such as integration, and practical methods for coherent control of photonic systems. It has become an important quantum enabling technology The key, such as quantum communication, quantum sensing, quantum simulation, and quantum information processing and other quantum technologies; in this course, we will introduce the core basic concepts of quantum photonics, and its implementation methods in related quantum technology applications. The content covers the following five Key points: 1. Importance of engineered single-photon systems; 2. Differences between classical engineering optics and quantum photonics; 3. Basic properties of photons; 4. Principles and methods of manufacturing, manipulation and detection of single photons and entangled photons ; 5. Integrated photon quantum technology.

課程學習目標 Course Objectives

  • 了解量子光子學之需求與重要性。
  • 明白光子量子狀態之特徵與其控制、量測基本原理。
  • 認識量子光子學之實務技術。
  • 課程進度 Progress Description

    進度說明 Progress Description
    11.1古典工程光學回顧;1.2 光子量子科技之到來。
    2光子量子系統之描述:狀態、演化與量測。
    3光子基本性質(I):光子統計特性。
    4光子基本性質(II):光子同調特性。
    5單光子之產生與控制。
    6單光子之偵測。
    7糾纏光子之製造、控制與偵測。
    8糾纏光子之關聯特性。
    9期中考試
    10光子量子技術(I):量子通訊。
    11光子量子技術(II):量子計算。
    12光子量子技術(III):量子玻色取樣。
    13光子量子技術(IV):量子模擬。
    14光子量子晶片之原理與特性。
    15光子量子晶片之設計、製程與當前進展。
    16積體化光子量子技術與量子資訊處理。
    17積體化光子量子技術之挑戰與展望。
    18期末報告
     以上每週進度教師可依上課情況做適度調整。The schedule may be subject to change.

    有關課程其他調查 Other Surveys of Courses

    1.本課程是否規劃業界教師參與教學或演講? 否
    Is there any industry specialist invited in this course? How many times? No
    2.本課程是否規劃含校外實習(並非參訪)? 否
    Are there any internships involved in the course? How many hours? No
    3.本課程是否可歸認為學術倫理課程? 否
    Is this course recognized as an academic ethics course? In the course how many hours are regarding academic ethics topics? No
    4.本課程是否屬進入社區實踐課程? 否
    Is this course recognized as a Community engagement and Service learning course? Which community will be engaged? No