Syllabus: GS3/ Science and Technology
Context
- The chairman of the Mission Governing Board of the National Quantum Mission (NQM) recently announced India’s plans to launch a quantum satellite in 2-3 years to enable quantum communications.
National Quantum Mission (NQM)
- It was conceptualized by the Prime Minister Science Technology Advisory Council (PM-STIAC) with a total outlay of Rs 6003.65 Crore for a period of eight years from 2023 to 2031.
- The Mission aims to seed, nurture, and scale up scientific and industrial R&D and create a vibrant & innovative ecosystem in Quantum Technology (QT).
- The Mission aims to establish four Thematic Hubs (T-Hubs) in domains such as,
- Quantum Computing,
- Quantum Communication,
- Quantum Sensing & Metrology, and
- Quantum Materials & Devices.
What is a quantum satellite?
- A quantum satellite is a communications satellite leveraging the principles of quantum physics to secure data transmissions.
- Significance: The emergence of quantum computers poses a threat to existing cryptographic systems.
- Quantum satellites aim to ensure secure communications by employing quantum cryptography particularly Quantum Key Distribution (QKD)
How Are Messages Secured in Quantum Communication?
- Quantum Measurement: Measuring a quantum system (like photons) alters its state.
- If an eavesdropper intercepts a quantum key encoded in photons, their actions will disturb the photons, alerting the sender and receiver to a breach.
- Quantum Entanglement: Entangled particles remain connected such that a change to one particle instantaneously affects the other, ensuring that any interception is immediately detectable.
Global scenario
- China launched the world’s first quantum satellite, Micius, in 2016.
- China has also launched other quantum satellites, including Quantum Experiments at Space Scale (QUESS).
- United States: Boeing is targeting 2026 to deploy a small quantum networking satellite.
Challenges with QKD
- Authentication Issues: QKD cannot authenticate the source of the transmission.
- Hardware Dependency: QKD relies on specific hardware, making upgrades or patches challenging.
- Cost: High infrastructure costs can be a barrier to widespread adoption.
- Denial-of-Service (DoS) Risks: An eavesdropper can disrupt transmissions, preventing legitimate users from accessing the system.
Way Ahead
- While QKD holds immense potential, the U.S. The National Security Agency recommends post-quantum cryptography (PQC) over quantum cryptography.
- PQC employs advanced classical encryption methods that resist attacks from both classical and quantum computers.
Concluding remarks
- While challenges remain, integrating quantum technologies could provide a comprehensive framework for secure data transmission in the future.
- As quantum physics continues to redefine technological paradigms, such initiatives will ensure India remains at the forefront of global scientific advancements.
Source: TH
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