The DRDO Industry Academia-Centre of Excellence (DIA-CoE), IIT Delhi demonstrated quantum communications technologies in New Delhi. It has been developed by their collaborative initiative of the entanglement-based quantum key distribution approaches for robust and secure communication, demonstrating entanglement distribution and quantum key distribution (QKD) over a 50 km fiber link in laboratory. A separate field test has demonstrated entanglement distribution and QKD over 8 km of optical fiber in IIT Delhi campus, said the Ministry of Defence in a press release on Tuesday.
In another initiative of quantum research, Free-space Entanglement distribution was demonstrated using the BBM-92 protocol, a key QKD method, between two tables separated by 20 meters in the lab and 80m in the open space. This experiment demonstrated short-range quantum communication in a free-space setup. In an innovative experiment, Hybrid entanglement has been demonstrated in a free-space environment, achieving a Quantum Bit Error Rate (QBER) of around 6 per cent in the laboratory over a distance of 10m in the lab. In addition, QKD systems supporting multiple independent channels driven by a single source are also being explored with promising results. These open the door for more flexible, multi-protocol quantum communication systems, said the release. In achieving the above breakthrough, an all-fiber heralded photon source with second-order correlation function (g2 ~ 0.01) at rates reaching hundreds of kHz is developed. This innovation is vital for single-photon generation, a critical requirement for secure quantum communication. An all-fiber entangled photon source has also been developed with high visibility. The Bell test parameter for this source is more than 2.6, exhibiting strong quantum entanglement, which is essential for protocols like BBM-92. For free-space quantum communication experiments, Free-space heralded single-photon source has been demonstrated with a heralding rate of over 4 million counts/sec. This development enables robust free-space quantum communication, added the release. Following India's First Quantum Key Distribution (QKD) demonstration between the cities of Prayagraj and Vindhyachal, separated by 100 km, by DRDO labs and IIT (D) in February 2022, many new initiatives have been taken by DRDO and IIT (D). In addition, indigenisation of various components like quantum sources and detectors are initiated. These include single photon sources on LNOI, SNSPD and periodically poled non-linear crystals. These projects are launched at IIT Delhi in collaboration with DRDO labs like DYSL-QT and SSPL and are funded by the Directorate of Futuristic Technology Management under its deep tech initiatives aimed at fostering cutting-edge innovations in defence technology, said the release. Through its projects at the DIA-CoE, IITD, DRDO have created a strong national footprint in QKD with breakthroughs in fibre and free space areas. Quantum communication holds significant potential for enhancing security in strategic sectors, such as defence and finance, by providing robust and tamper-evident communication channels. The DRDO Industry Academia-Centre of Excellence (DIA-CoE) is a collaborative initiative between DRDO and IIT Delhi, established at IIT Delhi. The CoE is developing various quantum communication technologies like development of fibre and free-space (polarization/hybrid photon) based Quantum Key Distributions Technologies, Quantum Sources, Quantum Detectors and Non-linear Crystals, according to the Ministry of Defence press release. (ANI)
|