All roads take to information science
One of the main features of our modern societies is that the tasks of storaging, processing and transmitting information became of crucial relevance. From bank transactions to healthcare, everything points to our capability of handling efficiently with big ammounts of data. What happens when the components of the devices used to store, process and transmit information become quantum systems?
Information theory meets quantum physics
The use of the peculiar properties of quantum systems to develop information processing devices turned out to be a great idea, that could provoque a disruptive technological change in mankind. This is why Quantum Information Science has became one of the main goals of our era. These efforts include the goal of developing Quantum Computers.
Estimation of quantum states and cloud quantum computing
The estimation of quantum states is a crucial task in quantum information theory. With a INNOVAT-AWS project we have used a variant of the Quantum MaxEnt technique to save resources when estimating symmetric states of quantum computers via cloud access using AWS Braket.
How quantum a quantum state is?
Not all quantum states display the full power of quantum physics. To establish to which extent a given quantum state possesses the resources needed is a crucial task in quantum information theory. We have worked in the development of different information quantifiers, and correlations and contextuality measures as well.
