International Conference on Quantum Science (ICQS-2025)

International Conference
on
Quantum Science (ICQS-2025)
held jointly with the
4^th Seminar on the Discovery and Detection of Gravitational Waves
September 12 to 14, 2025

International Conference

Quantum Science (ICQS-2025)

held jointly with the

4^th Seminar on the Discovery and Detection of Gravitational Waves

September 12 to 14, 2025

Organized by
**************************************
Jaipur National University, Jaipur
Malviya National Institue of Technology (MNIT), Jaipur
BIT Mesra-Jaipur Centre
Centre for Excellence in Quantum Science (CEQS), Jaipur
Indian Association of Physics Teachers (IAPT), RC06, Rajasthan Chapter
Materials Research Society of India (MRSI), Rajasthan Chapter
National Academy of Sciences India (NASI), Rajasthan Chapter
**************************************

Themes

Foundations & Theory
- Foundations of Quantum Physics
- Quantum Information Theory
- Theory of Quantum Materials
- Topological Matter & Magnetism
Quantum Materials & Devices
- Growth & Characterization of Quantum Materials
- Quantum Materials for Electronics, Photonics & Spintronics
- Quantum Semiconductor Devices
Quantum Computing & Simulation
- Quantum Computing & Technologies
- Quantum Simulation (exotic states of matter; chemical, physical, and biological systems)
- Topological Quantum Computing
- Hybrid Quantum–Classical Architectures & Algorithms
- Distributed Quantum Computing
- Adiabatic Computing
- Quantum Error Correction & Mitigation
- Quantum Optimization Techniques
- Quantum Advantage, Utility & Benchmarks
Quantum Communication & Networks
- Advanced Quantum Communication Protocols & the Quantum Internet
- Quantum Communications & Cryptography
- Quantum Networks
Quantum Sensing & Metrology
- Quantum Sensing & Applications
- Quantum Metrology
Quantum Software, Algorithms & AI
- Quantum Systems Software & Engineering Methods
- Quantum Software & Algorithms
- Quantum Machine Learning (QML) & gen AI Nexus
- Quantum Applications
- Integrated HPC & Quantum Platforms
Engineering & Technology Integration
- Quantum Control & Quantum Engineering
- Quantum Technology Engineering
- Integrated HPC & Quantum Platforms (cross cutting)
Gravitation & Gravitational Wave Science
1. Classical General Relativity
  - A1: Theoretical Developments
  - A2: Mathematical Developments
  - A3: Alternative & Modified Gravity Theories
2. Relativistic & Numerical Astrophysics
  - B1: Relativistic Astrophysics
  - B2: Numerical Relativity
  - B3: Approximation Methods & Perturbation Theory
  - B4: Cosmology: Theory & Observations
  - B5: Inflationary & Primordial GW Backgrounds
  - B6: Phase Transition–Generated GWs
3. Gravitational Wave Astronomy & Instrumentation
  - C1: Pulsar Timing Arrays
  - C2: Stochastic Backgrounds from SMBH Binaries
  - C3: Terrestrial Detector Searches & Data Analysis
  - C4: Detector Instrumentation Challenges
  - C5: Next Generation Terrestrial Detectors
  - C6: Space Based Detectors
  - C7: GWs & Fundamental Physics
  - C8: Multi Messenger Observations
  - C9: Experimental Gravitation
  - C10: Testing Compact Object Nature
  - C11: Ultra High Frequency GWs – Theory, Phenomenology, Detection
4. Quantum Gravity & QFT in Curved Spacetime
  - D1: Loop Quantum Gravity & Spin Foams
  - D2: String Theory in Gravitational Contexts
  - D3: Causal Sets, Dynamical Triangulations, Non Commutative Geometry, Asymptotic Safety
  - D4: Quantum Fields on Curved Backgrounds, Semiclassical Phenomena, Quantum Gravity Phenomenology, Analogue Models