Quantum Nanophysics: Electrodynamics at the Quantum Scale
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Course Overview
Program Syllabus
Module 1
About This Course
At nanometer length scales, classical electrodynamics fails to fully describe physical phenomena, giving rise to quantum effects such as confinement, tunneling, discrete energy levels, and strong light–matter coupling. Quantum nanophysics lies at the heart of modern technologies including nanoelectronics, photonics, quantum sensing, metamaterials, and quantum information systems.
This workshop provides a structured introduction to quantum electrodynamics in nanosystems, covering both theoretical foundations and application-oriented perspectives. Participants will explore quantum confinement, plasmon–exciton coupling, near-field effects, and nanoscale energy transfer. The program emphasizes conceptual understanding supported by mathematical models and simulations, making it suitable for researchers entering nanophysics, quantum materials, or nano-optoelectronics.
Module 2
Aim
This workshop aims to introduce participants to the fundamental principles of quantum nanophysics, with a special focus on electrodynamics at the nanoscale. It explores how quantum effects govern light–matter interactions in nanostructures such as quantum dots, plasmonic systems, and 2D materials. Participants will gain conceptual clarity and computational insight into how electromagnetic fields behave when classical models break down at the quantum scale.
Limited SeatsClosing Soon
Quantum Nanophysics: Electrodynamics at the Quantum Scale
Professional Certification Program
🎥
FormatLive + Recorded
📅
Duration8 Weeks
📜
CertificationVerified
Module 3
Workshop Objectives
- Understand the limitations of classical electrodynamics at the nanoscale.
- Explain quantum confinement and its impact on electromagnetic behavior.
- Analyze light–matter interaction in quantum nanostructures.
- Interpret plasmonic and excitonic effects using quantum models.
- Connect theoretical concepts to emerging nano- and quantum technologies.
Module 4
Day 1: Introduction to Quantum Nanophysics and Electrodynamics
Electrodynamics vs. Quantum Electrodynamics
Electromagnetic waves in nanostructures
Quantum states, wave functions, and superposition
Quantum entanglement and coherence in nanomaterials
Surface Plasmon Resonance (SPR) and Surface Plasmon Polaritons (SPPs)
Plasmonic materials (gold, silver nanostructures) and their role in nanophotonics and sensing
Applications: Plasmonic biosensors, SERS (Surface Enhanced Raman Spectroscopy), and imaging applications.
Tools/Applications: Quantum Development Kit (Microsoft), Qiskit (IBM for quantum computing and simulation).
COMSOL Multiphysics (Electromagnetic Simulation Tool), MATLAB (Quantum Simulations), FDTD (Finite Difference Time Domain) for light-matter interaction
Module 5
Day 3: Applications, Challenges, and Future Directions
Quantum transport and tunneling effects in nanodevices (e.g., transistors, diodes)
Photonic devices: Quantum dots, nanowires, and metamaterials for quantum-enhanced optics.
Quantum communication: Quantum key distribution (QKD) and quantum cryptography
Electrodynamics in quantum-enhanced measurements.
Quantum sensing, metamaterials, nano-optics.
Tools/Applications: Quantum ESPRESSO (simulation of electronic structure), Meep (a finite-difference time-domain solver for photonic devices).
Quantum teleportation, quantum-enhanced radar systems, secure communications.
Simulation of quantum systems in Qiskit, PySCF (Python for quantum chemistry), and QuTiP (Quantum Toolbox in Python).
Module 6
Who Should Enrol?
- Undergraduate/postgraduate degree in Physics, Nanotechnology, Materials Science, Electrical Engineering, Applied Physics, or related fields.
- Research scholars working in nanophysics, quantum materials, photonics, plasmonics, or condensed matter physics.
- Professionals interested in quantum-scale electrodynamics and nanoscale devices.
- Individuals with basic knowledge of quantum mechanics and electromagnetism.
Module 7
Important Dates
Module 8
Registration Ends
12/03/2026
IST 07:00 PM
Module 9
Workshop Dates
01/03/2026 – 01/05/2026
IST 07:00 PM
Module 10
Workshop Outcomes
- Gain strong conceptual understanding of electrodynamics at the quantum scale.
- Learn how quantum effects modify electromagnetic behavior in nanostructures.
- Understand real-world applications in nanophotonics, plasmonics, and quantum devices.
- Be able to read and interpret advanced research literature in quantum nanophysics.
- Build a foundation for advanced study or research in quantum and nanoscale science.
Module 11
Fee Structure
Module 12
Student Fee
₹1799 | $70
Module 13
Ph.D. Scholar / Researcher Fee
₹2799 | $80
Module 14
Academician / Faculty Fee
₹3799 | $90
Module 15
Industry Professional Fee
₹4799 | $100
Module 16
What You’ll Gain
- Live & recorded sessions
- e-Certificate upon completion
- Post-workshop query support
- Hands-on learning experience
Module 17
Join Our Hall of Fame!
Take your research to the next level with NanoSchool.
Module 18
Publication Opportunity
Get published in a prestigious open-access journal.
Module 19
Centre of Excellence
Become part of an elite research community.
Module 20
Networking & Learning
Connect with global researchers and mentors.
Module 21
Global Recognition
Worth ₹20,000 / $1,000 in academic value.
Module 22
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