Quantum Detectors and Sensors
This course is part of Quantum Technology: Computing and Sensing.
This advanced course explores the fascinating world of quantum detectors and sensors, bridging classical and quantum measurement paradigms. Students will gain comprehensive knowledge of quantum noise, state-of-the-art quantum detectors, and sensing technologies. The course emphasizes both theoretical foundations and practical applications, covering topics from superconducting single photon detectors to quantum metrology. Designed for advanced learners, it demonstrates how quantum devices enable unprecedented precision in measurement and information collection, with applications spanning machine learning, autonomous navigation, and communication systems.
Instructors:
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What you'll learn
Master the principles of quantum noise and its impact on measurements
Understand the operation of superconducting single photon detectors
Explore the foundations of quantum metrology and measurement theory
Compare quantum and classical detector operating principles
Develop expertise in quantum sensing devices including magnetometers
Gain proficiency in quantum coherence theory
Skills you'll gain
This course includes:
Live video
Graded assignments, Exams
Access on Mobile, Tablet, Desktop
Limited Access access
Shareable certificate
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There are 3 modules in this course
This comprehensive course delves into the cutting-edge field of quantum detectors and sensors, bridging classical and quantum measurement paradigms. Students explore fundamental concepts of quantum noise, state-of-the-art detection systems, and quantum sensing technologies. The curriculum covers critical topics including quantum metrology, superconducting detectors, and quantum interference, emphasizing both theoretical understanding and practical applications in emerging quantum technologies.
Quantum Noise
Module 1
Quantum Detectors
Module 2
Quantum Sensing
Module 3
Fee Structure
Individual course purchase is not available - to enroll in this course with a certificate, you need to purchase the complete Professional Certificate Course. For enrollment and detailed fee structure, visit the following: Quantum Technology: Computing and Sensing
Instructor
4 Courses
A Pioneering Researcher in Nanophotonics and Quantum Engineering
Zubin Jacob currently serves as the Elmore Professor of Electrical and Computer Engineering at Purdue University, where he leads groundbreaking research in quantum optics and nanoscale heat transfer. After earning his B.Tech from IIT Bombay, followed by degrees from Princeton University and his Ph.D. from Purdue University in 2010, he has established himself as a leading figure in electromagnetic engineering. His pioneering work in hyperbolic photonic metamaterials has revolutionized the field, with his original hyperlens paper ranking as the 6th most cited paper in Optics Express's 20-year history
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Frequently asked questions
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