DYSL-QT has developed Quantum Random Number Generator (QRNG) which is an opto-electronic system which uses principles of quantum mechanics to generate true randomness.
The system detects random quantum events and converts them into a stream of binary bits.The approach followed in the design uses the path superposition property of single photons in the fiber optic medium to generate random numbers.
Its applications are in the areas of cryptography (key generation, key wrapping, authentication etc.), modelling, simulation, quantum communication, fundamental physics experiments and many more.
DYSL-QT is developing the first quantum computer of India with TIFR Colaba. The processor of the Quantum Computer will have seven qubits based on super-conducting circuits operated by indigenously developed hardware with future scalability in mind.
The Quantum Computer will be accessible to all for experiments via a cloud interface from the year 2024.
Quantum Computers can out-perform classical super-computers in
DYSL-QT is developing a highly sensitive magnetometer in collaboration with TIFR Hyderabad with sensitivity of the order of at room temperature. Such acute sensitivity will allow detection of deep bunkers and submarines in Electromagnetic wave opaque seas for greater depths.
The atomic magnetometer will be available for technology demonstration in the near future before field deployment.
Measurement of magnetic field will help in the following ways: