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Monday, December 9, 2024

Bharatiya scientists devise technique for more efficient quantum computing

Correlations between waves in atomic systems or spin coherences are long-lived at ultralow temperatures, says a new study by scientists who have developed a new technique to measure it as a system with long-lived spin coherences is a better resource as a quantum computer.

This is because it allows quantum operations and logic gates to be more efficiently implemented so that the system becomes a better quantum sensor compared to systems where coherence is short-lived, a Science and Technology Ministry release said.

This newly explored property of atomic systems at low temperature can be exploited for efficient quantum sensing and quantum information processing for application in quantum computation and secure communication, it said. “The newly discovered technique can help study the real-time dynamics of quantum phenomena such as quantum phase transitions in a non-invasive manner.”

Spin is a fundamental quantum property of atoms and elementary particles such as electrons and protons. As atoms are cooled to lower temperatures, their quantum nature is manifested more prominently. However, while the spin degree of freedom is a highly discussed topic, especially in the context of quantum information processing, the dynamical measurements on spins at ultralow temperatures were not available. This is because most of the detection techniques in cold atom experiments are destructive and disturbs the atomic sample during detection.

A team of scientists from the Raman Research Institute (RRI), Bengaluru, an autonomous institute of the Department of Science & Technology, have measured the spin properties of atoms cooled to micro-Kelvin temperatures using the new method they have devised.

Quantum properties dominate over everyday classical observations at this temperature — very near absolute zero temperature, and it is for the first time that spin dynamics have been detected at this temperature regime.

With the new technique, the scientists measured the properties of spins and lifetime of an atomic spin state with a million-fold improvement in detection sensitivity compared to the existing technology. They proved that spin coherence at this low temperature is long-lived.

In this work, led by Sanjukta Roy, Dibyendu Roy, and Saptarishi Chaudhuri and co-authored by Ph.D. students Maheswar Swar and Subhajit Bhar from RRI, the researchers increased signal strength of spin noise by a million-fold by using coherent laser drive. They made the spin noise spectroscopy technique usable for spectroscopists measuring systems where signal level is too low to detect. The research has been published in the journal Physics Review Research. The work has been financially supported by funding from the Department of Science and Technology and Ministry of Electronics and Information Technology.

According to the RRI team, this work derives its original motivation from Nobel laureate Sir C.V. Raman’s seminal work on light scattering.

According to the team, this technology can be used to make devices that can precisely detect small magnetic fields, which has important applications in mining and prospecting. The work also has important applications in biomedical imaging, where time-resolved measurements of small magnetic fields are required.

(The story has been published via a syndicated feed with a modified headline.)

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