November 22, 2024

New Method Transforms Everyday Materials Like Glass Into Quantum Materials

Credit: SciTechDaily.comThis breakthrough will enable researchers to convert daily materials into conductors for use in quantum computers.A recent research study by researchers from the University of California, Irvine and Los Alamos National Laboratory, published in Nature Communications, exposes a development technique for transforming daily products, such as glass, into materials scientists can use to make quantum computers.”The Role of Strain in Material TransformationThe key, Jauregui described, was applying the right kind of stress to materials at the atomic scale. To do this, the group designed an unique apparatus called a “flexing station” at the device store in the UCI School of Physical Sciences that enabled them to apply large strain to change the atomic structure of a product called hafnium pentatelluride from a “insignificant” material into a material fit for a quantum computer system.

By controling the atomic structure through pressure, they have actually produced materials with special quantum residential or commercial properties, marking a significant advancement towards making quantum computer systems a practical truth. Credit: SciTechDaily.comThis advancement will enable scientists to transform daily materials into conductors for usage in quantum computers.A recent research study by scientists from the University of California, Irvine and Los Alamos National Laboratory, released in Nature Communications, reveals an advancement technique for transforming everyday products, such as glass, into materials scientists can use to make quantum computers.”The Role of Strain in Material TransformationThe key, Jauregui described, was applying the best kind of pressure to materials at the atomic scale. To do this, the group developed an unique device called a “flexing station” at the machine store in the UCI School of Physical Sciences that permitted them to use large pressure to alter the atomic structure of a material called hafnium pentatelluride from a “insignificant” material into a product fit for a quantum computer. “This is assuring for the advancement of quantum devices, and the approach we show is suitable for experimentation on other quantum materials.