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Patna: A man from Patna in Bihar has been nominated the leader of US research scientists’ team to build what Einstein had written off as science fiction.
Saikat Guha has been appointed the director of Center for Quantum Networks (CQN) under University of Arizona. The CQN has been awarded a research project worth more than $26 million. The team is charged with developing the internet of the future, ruled by quantum mechanical properties, instead of conventional 0s (zeros) and 1s (ones). The work is expected to transform areas such as medicine, finance, data security, artificial intelligence, autonomous systems and smart devices.
Saikat is the son of Prof S N Guha, former vice-chancellor of Patna-based Aryabhatta Knowledge University. Saikat went to the US in 2002 after passing Class XII examination from the local St Michael’s High School and completing BTech course from IIT Kanpur. He did his MSc and PhD from Massachusetts Institute of Technology (MIT).
Explaining the fundamentals of his team’s research, Saikat told this correspondent over phone from Arizona, “Less than a year ago, a quantum computer for the first time performed certain calculations that are no longer feasible for even the largest conventional supercomputers. The quantum internet will allow for applications that will never be possible on the internet as we know it.”
He further pointed out that the next few years will be very exciting, as “we are at a time when the community puts emerging quantum computers, processors, sensors and other gadgets to real use. We are just beginning to connect small quantum computers, sensors and other gadgets into quantum networks that transmit quantum bits”.
According to Saikat, quantum-enabled sensors will be more sensitive than classical ones and will dramatically improve technologies such as microscopes used in biomedical research to look for cancer cells, sensors on low-Earth-orbit satellites and magnetic field sensors used for positioning and navigation.
He said the present internet system is a playground for hackers due to insecure communication links to inadequately guarded data in the cloud. “Quantum systems will provide a level of privacy, security and computational clout that is impossible to achieve with today’s internet,” he said.
The CQN will bring together scientists, engineers and social scientists working on quantum information science and engineering and its societal impacts. It has teamed up with Harvard University, MIT and Yale University to work on the core hardware technologies for quantum networks and create an entrepreneurial ecosystem for technology transfer, Saikat added.
Saikat Guha has been appointed the director of Center for Quantum Networks (CQN) under University of Arizona. The CQN has been awarded a research project worth more than $26 million. The team is charged with developing the internet of the future, ruled by quantum mechanical properties, instead of conventional 0s (zeros) and 1s (ones). The work is expected to transform areas such as medicine, finance, data security, artificial intelligence, autonomous systems and smart devices.
Saikat is the son of Prof S N Guha, former vice-chancellor of Patna-based Aryabhatta Knowledge University. Saikat went to the US in 2002 after passing Class XII examination from the local St Michael’s High School and completing BTech course from IIT Kanpur. He did his MSc and PhD from Massachusetts Institute of Technology (MIT).
Explaining the fundamentals of his team’s research, Saikat told this correspondent over phone from Arizona, “Less than a year ago, a quantum computer for the first time performed certain calculations that are no longer feasible for even the largest conventional supercomputers. The quantum internet will allow for applications that will never be possible on the internet as we know it.”
He further pointed out that the next few years will be very exciting, as “we are at a time when the community puts emerging quantum computers, processors, sensors and other gadgets to real use. We are just beginning to connect small quantum computers, sensors and other gadgets into quantum networks that transmit quantum bits”.
According to Saikat, quantum-enabled sensors will be more sensitive than classical ones and will dramatically improve technologies such as microscopes used in biomedical research to look for cancer cells, sensors on low-Earth-orbit satellites and magnetic field sensors used for positioning and navigation.
He said the present internet system is a playground for hackers due to insecure communication links to inadequately guarded data in the cloud. “Quantum systems will provide a level of privacy, security and computational clout that is impossible to achieve with today’s internet,” he said.
The CQN will bring together scientists, engineers and social scientists working on quantum information science and engineering and its societal impacts. It has teamed up with Harvard University, MIT and Yale University to work on the core hardware technologies for quantum networks and create an entrepreneurial ecosystem for technology transfer, Saikat added.
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