Zhuohan Li, Zi Lin, Di He, Fei Tian, Tao Qin, Liwei Wang and Tie-Yan Liu ... Yuchen Liu, Hao Xiong, Jiajun Zhang, Zhongjun He, Hua Wu, Haifeng Wang, and Chengqing Zong. 2019. End-to-End Speech ...

Researchers in the lab of Asst. Prof. Tian Zhong of the UChicago Pritzker School of Molecular Engineering, including postdoctoral researcher and first author Leonardo França (pictured), have ...

Prof. Tian Zhong. "Now you can pack terabytes of bits within a small cube of material that's only a millimeter in size." The innovation is a true example of UChicago PME's interdisciplinary ...

Prof. Tian Zhong. "Now you can pack terabytes of bits within a small cube of material that's only a millimeter in size." The innovation is a true example of UChicago PME's interdisciplinary ...

Prof. Tian Zhong. “Our proposal cranks up those numbers, showing that you can reach 10, up to 50 megabits per second.” A new paper from Zhong’s lab, published this month in Physical Review Letters, ...

"In a tiny little cube, there are at least a billion 'bits' of storage based on atoms," explains Tian Zhong, the project leader. This approach blends material physics and quantum technologies to ...

Led by assistant professor Tian Zhong, the research team developed this novel storage method by introducing rare-earth ions into a crystal. Specifically, they incorporated praseodymium ions into a ...

“Each memory cell is a single missing atom – a single defect,” said UChicago PME Asst. Prof. Tian Zhong. “Now you can pack terabytes of bits within a small cube of material that's only a millimeter in ...

This quote comes from UChicago PME Assistant Professor and lab overseer Tian Zhong, who also explained that "Within that millimeter cube [where we've made charged atom-defect gaps "one" and ...

“Each memory cell is a single missing atom – a single defect,” said Tian Zhong, an assistant professor at UChicago PME, in a press release. “Now you can pack terabytes of bits within a small cube of ...

Researchers at the University of Chicago have made a major breakthrough in data storage technology, successfully fitting terabytes of digital data into a crystal cube measuring just one millimetre.