Quantum Universe 2026: Quantum Science, Astrophysics & Fundamental Physics
📠Hong Kong | 📅 September 8–9, 2026
Theme: Advancing Quantum Science, Astrophysics & Fundamental Physics for the Future of the Universe
"All registered participants of Scientific Research Conferences 2026 will receive a Certificate of Attendance accredited with 10 CPD Credits"
About the Conference
Quantum Universe 2026 brings together leading scientists, researchers, academicians, and industry professionals from across the world to explore groundbreaking developments in quantum science, astrophysics, and fundamental physics.
This conference provides a global platform for knowledge exchange, collaboration, and innovation, shaping the future understanding of the universe. Researchers and professionals are invited to submit papers, present discoveries, and build international collaborations.
Important Dates
| Event | Date |
| Paper Submission Deadline | June 15, 2026 |
| Notification of Acceptance | July 10, 2026 |
| Early Registration Deadline | August 1, 2026 |
| Conference Dates | September 8–9, 2026 |
Conference Highlights
- Publication Opportunities: Selected papers may be published in Scopus & Web of Science-indexed journals.
- Official Invitation Letters: Available for institutional approvals, funding, and visa processing.
- Networking: Connect with leading scientists, researchers, and industry professionals worldwide.
- Virtual Participation: Present your research remotely and publish safely.
Registration Benefits
Early Bird Advantages
- Save on conference fees.
- Priority selection of presentation slots.
- Early confirmation of participation.
Special Offers
- Affordable Fees: Discounts for students, early-career researchers, and participants from developing countries.
- Group Promotion: Buy 1 registration – get 1 free for research groups.
- First 100 Registrants Discount: Secure special pricing as part of the “100 Lead Sprint” campaign.
- 24-Hour Flash Offers: Limited-time promotions announced periodically.
Referral & Community Benefits
- Bring 3–5 additional researchers and receive special discounts.
- Speakers and participants referring attendees earn registration credits.
Additional Benefits
- Official Certificate of Participation with 10 CPD Credits.
- Access to discounted accommodation in Hong Kong.
Why Attend Quantum Universe 2026?
✔ Present your research to a global audience
✔ Publish in internationally indexed journals
✔ Network with leading scientists and physicists
✔ Explore breakthroughs in quantum science & astrophysics
✔ Build international research collaborations
✔ Gain CPD-accredited certification
Global Promotion & Outreach
- LinkedIn Academic Promotions: Short videos highlighting keynote speakers, research publication opportunities, and networking benefits.
- Expands conference visibility to the global academic community.
Join Us in Hong Kong
Be part of Quantum Universe 2026 and contribute to the future of quantum science, astrophysics, and fundamental physics.
Contact & Support
For questions about submissions, participation, sponsorships, and media inquiries, contact the conference committee at: quantumscience@srcconferences.org
Preliminary Program
Quantum Universe 2026: Quantum Science, Astrophysics & Fundamental Physics
📠Hong Kong | 📅 September 8–9, 2026
Day 1 – September 8, 2026
Theme: Foundations & Theoretical Frontiers
09:00 – 09:30 | Opening Ceremony & Welcome Address
Kick off the conference with an introduction by the conference chair, outlining the program and objectives.
09:30 – 10:30 | Keynote Session: Foundations of Quantum Mechanics: Interpretation and Reality
Explore different interpretations of quantum mechanics, their philosophical implications, and experimental foundations.
10:30 – 11:00 | Coffee Break & Networking
11:00 – 12:00 | Session: Quantum Field Theory and the Structure of Spacetime
Delve into the latest developments in quantum field theory and its connection to the geometry of spacetime.
12:00 – 13:00 | Session: Quantum Gravity and the Early Universe
Theoretical and observational perspectives on quantum gravity and the physics of the early universe.
13:00 – 14:00 | Lunch Break
14:00 – 15:00 | Session: Quantum Cosmology and Dark Components of the Universe
Investigate dark matter, dark energy, and their quantum foundations.
15:00 – 16:00 | Session: Black Hole Information and Quantum Entanglement
Gain insights into black hole physics, entanglement, and their role in fundamental physics.
16:00 – 16:30 | Coffee Break
16:30 – 17:30 | Session: Particle Physics Beyond the Standard Model
Examine the latest advances in particle physics and searches for new physics.
17:30 – 18:30 | Poster Session & Networking
Early-career researchers present posters and engage in discussions with participants.
Day 2 – September 9, 2026
Theme: Applications, Experiments & Future Directions
09:00 – 10:00 | Keynote Session: Quantum Technologies for Fundamental Physics
Discover how quantum technologies, including sensors and quantum computers, are transforming research in fundamental physics.
10:00 – 11:00 | Session: Astrophysical Probes of Extreme Quantum Phenomena
Explore observational methods for detecting quantum effects in extreme astrophysical environments.
11:00 – 11:30 | Coffee Break & Networking
11:30 – 12:30 | Session: Quantum Simulations of Astrophysical Systems
Simulating complex astrophysical phenomena using quantum computation and modeling techniques.
12:30 – 13:30 | Session: Precision Cosmology and Observational Frontiers
Review the latest measurements and observational techniques in cosmology.
13:30 – 14:30 | Lunch Break
14:30 – 15:30 | Session: Emergent Phenomena and the Quantum Structure of Matter
Explore emergent behaviors and new quantum phases in fundamental physics.
15:30 – 16:30 | Session: Quantum Information Theory and the Fabric of Reality
Information-theoretic approaches to understanding spacetime, matter, and fundamental physics.
16:30 – 17:00 | Coffee Break
17:00 – 18:00 | Session: High-Energy Astrophysics and Cosmic Particle Acceleration
Investigate extreme astrophysical processes and mechanisms of particle acceleration.
18:00 – 18:30 | Session: Experimental Tests of Fundamental Symmetries
Cutting-edge experiments probing symmetry violations in fundamental physics.
18:30 – 19:00 | Closing Remarks & Awards
Summary of key outcomes, recognition of contributors, and announcements for future collaborations.
Conference sessions
Browse the current session list for Quantum Universe 2026: Quantum Science, Astrophysics & Fundamental Physics.
Experimental Tests of Fundamental Symmetries
This session highlights precision experiments designed to probe symmetry principles such as CPT invariance, Lorentz symmetry, and charge-parity violation. Topics include antimatter studies, neutrino oscillations, electric dipole moment searches, and tabletop experiments that may reveal tiny deviations from established physical laws.
High-Energy Astrophysics and Cosmic Particle Acceleration
Focused on the most energetic processes in the universe, this session examines gamma-ray bursts, active galactic nuclei, relativistic jets, and ultra-high-energy cosmic rays. Presentations will address particle acceleration mechanisms, quantum processes in extreme magnetic fields, and how observational data constrains high-energy physics models.
Quantum Information Theory and the Fabric of Reality
This session explores how quantum information concepts—such as entanglement entropy, quantum error correction, and information flow—may underpin the structure of spacetime and physical law. Speakers will discuss whether the universe can be fundamentally described in informational terms and how quantum computation frameworks illuminate gravity, black holes, and cosmology.
Future Directions in Quantum and Fundamental Physics
A forward-looking session dedicated to interdisciplinary perspectives, open problems, and transformative ideas. Speakers will present visionary concepts that could redefine our understanding of the universe over the coming decades.
Emergent Phenomena and the Quantum Structure of Matter
This session investigates how collective quantum behavior gives rise to new states of matter and possibly emergent spacetime features. Topics include topological phases, quantum criticality, and condensed-matter analogues of cosmological phenomena.
Precision Cosmology and Observational Frontiers
Focusing on observational advances, this session explores high-resolution cosmic microwave background studies, large-scale structure mapping, gravitational lensing, and next-generation space missions. The goal is to connect precise cosmological data with theoretical quantum models.
Quantum Simulations of Astrophysical Systems
This session presents the use of quantum computers and analog quantum simulators to model complex astrophysical and high-energy systems. Topics include simulation of lattice gauge theories, early-universe conditions, and strongly interacting quantum matter.
Particle Physics Beyond the Standard Model
Black Hole Information and Quantum Entanglement
This session addresses the black hole information paradox, holographic principles, entropy bounds, and the role of entanglement in spacetime geometry. Discussions will consider whether spacetime itself may emerge from quantum entanglement networks.
Astrophysical Probes of Extreme Quantum Phenomena
Astrophysical environments provide natural laboratories for extreme physics. This session explores neutron stars, black holes, magnetars, and high-energy cosmic rays as testing grounds for quantum field effects under extreme conditions. Emphasis will be placed on observational signatures and multi-messenger astronomy.
Quantum Technologies for Fundamental Physics
This session highlights cutting-edge quantum technologies—such as quantum sensors, atomic clocks, and interferometers—that enable high-precision tests of fundamental laws. Applications include gravitational wave detection, equivalence principle tests, and searches for new physics beyond the Standard Model.
Quantum Cosmology and Dark Components of the Universe
Focusing on dark matter, dark energy, and vacuum energy, this session examines quantum-based models that attempt to explain large-scale cosmic behavior. Presentations will explore particle candidates for dark matter, quantum vacuum fluctuations, and potential quantum explanations for cosmic acceleration.
Quantum Gravity and the Early Universe
This session investigates theoretical and phenomenological efforts to merge gravity with quantum principles. Topics include loop quantum gravity, string-inspired models, spacetime discreteness, and cosmological signatures of quantum gravitational effects. Discussions will also explore how quantum gravity could reshape our understanding of the Big Bang and cosmic origins.
Quantum Field Theory and the Structure of Spacetime
Dedicated to the unification of quantum mechanics with relativistic fields, this session examines advances in quantum field theory, renormalization, vacuum fluctuations, and gauge symmetries. Special emphasis will be placed on how quantum fields shape spacetime structure and how emerging approaches may bridge toward quantum gravity.
Foundations of Quantum Mechanics: Interpretation and Reality
This session explores the conceptual structure of quantum theory, focusing on interpretations, measurement theory, nonlocality, and the quantum-classical boundary. Discussions will address unresolved questions about wavefunction realism, decoherence, contextuality, and the nature of probability in quantum systems. Speakers will examine whether new theoretical frameworks are required to fully understand physical reality.
Submit your abstract
Mail your abstract to quantum@srcmeetings.com or submit it online using the form below.
Registration details
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Featured speakers
Keynote, session, and delegate speakers currently associated with this conference.
Xiao En Wang
Session SpeakerXiao En Wang’s research focuses on interdisciplinary fundamental theoretical studies bridging quantum mechanics, atomic physics, and cosmology. His work explores the nature of photon wave–particle duality, advanced at...
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Quantum Universe 2026: Quantum Science, Astrophysics & Fundamental Physics
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