{"id":89172,"date":"2018-08-01T09:09:45","date_gmt":"2018-08-01T13:09:45","guid":{"rendered":"https:\/\/www.ucf.edu\/news\/?p=89172"},"modified":"2019-02-28T10:08:24","modified_gmt":"2019-02-28T15:08:24","slug":"ucf-professor-discovers-first-kind-material-quantum-age","status":"publish","type":"post","link":"https:\/\/www.ucf.edu\/news\/ucf-professor-discovers-first-kind-material-quantum-age\/","title":{"rendered":"UCF Professor Discovers First-of-its-Kind Material for the Quantum Age"},"content":{"rendered":"

A UCF physicist has discovered a new material that has the potential to become a building block in the new era of quantum materials, those that are composed of microscopically condensed matter and expected to change our development of technology.<\/p>\n

Researchers are entering the Quantum Age, and instead of using silicon to advance technology they are finding new quantum materials, conductors that have the ability to use and store energy at the subatomic level.<\/p>\n

Assistant Professor Madhab Neupane has spent his career learning about the quantum realm and looking for these new materials, which are expected to become the foundation of the technology to develop quantum computers and long-lasting memory devices. These new devices will increase computing power for big data and greatly reduce the amount of energy required to power electronics.<\/p>\n

Big companies recognize the potential and they are investing in research. Microsoft has invested in its Station Q, a lab dedicated solely to studying the field of topological quantum computing. Google has teamed up with NASA on a Quantum AI Lab that studies how quantum computing and artificial intelligence can mesh. Once the quantum phenomena are well understood and can be engineered, the new technologies are expected to change the world, much like electronics did at the end of the 20th century.<\/p>\n

Neupane\u2019s discovery, published today in Nature Communications<\/a><\/em> is a big step in making that reality happen.<\/p>\n

\u201cOur discovery takes us one step closer to the application of quantum materials and helps us gain a deeper understanding of the interactions between various quantum phases,\u201d Neupane said.<\/p>\n

The material Neupane and his team discovered, Hf2Te2P \u2013 chemically composed of hafnium, tellurium and phosphorus — is the first material that has multiple quantum properties, meaning there is more than one electron pattern that develops within the electronic structure, giving it a range of quantum properties.<\/p>\n

Neupane\u2019s research group is using its specialized equipment for advanced-spectroscopic characterization of quantum materials to develop their work further.<\/p>\n

\u201cWith the discovery of such an incredible material, we are at the brink of having a deeper understanding of the interplay of topological phases and developing the foundation for a new model from which all technology will be based off, essentially the silicon of a new era,\u201d Neupane said.<\/p>\n

This study was funded by the Air Force Office of Scientific Research and was conducted in collaboration with Tomasz Durakiewicz from Los Alamos National Laboratory, Raman Sankar and Fangcheng Chou from National Taiwan University in Taiwan, Peter Oppeneer from Uppsala University in Sweden, and Dariusz Kaczorowski from Polish Academy of Science in Poland. Neupane led the team of researchers that included UCF graduate students M. Mofazzel Hosen, Gyanendra Dhakal, Firoza Kabir, and Christopher Sims, and undergraduate student Klauss Dimitri.<\/p>\n

Neupane came to UCF in 2016 after completing postdoctoral studies at Princeton University and Los Alamos National Laboratory. He has been part of the frontier of quantum materials research since 2011.<\/p>\n","protected":false},"excerpt":{"rendered":"A UCF physicist has discovered a new material that has the potential to become a building block in the new era of quantum materials, those that are composed of microscopically condensed matter and expected to change our development of technology. 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