Application of Quantum Nanosensing and Quantum Computing - Lecture 2

Explore the applications of quantum nanosensing and quantum computing in this comprehensive lecture by Jörg Wrachtrup, part of the "Introduction to Precision Measurements and Quantum Metrology" program at the International Centre for Theoretical Sciences. Delve into the cutting-edge field of quantum technologies, examining how quantum effects are being harnessed for practical applications across multiple disciplines. Learn about the fundamental principles of quantum physics and their role in developing advanced measurement techniques, sensors, and computational tools. Discover how quantum resources such as entanglement, superposition, and coherence are utilized to achieve unprecedented levels of accuracy in measurements, surpassing classical methods. Gain insights into the latest developments in quantum computers, sensors, and encryption tools that incorporate individual quantum systems. Understand the importance of precision measurements in pushing the boundaries of scientific discovery and their relevance to the National Quantum Mission in India. This lecture is ideal for graduate students, researchers, and professionals interested in quantum physics, metrology, and emerging quantum technologies.