by | Oct 21, 2021 | Alazzawi, Yarub, Aono, Kenji, Chakrabartty, Shantanu, Scheller, Erica
— Technology Description
Engineers in Prof. Shantanu Chakrabartty’s laboratory have developed a convenient, wireless power transfer system that exploits the body’s self-capacitance to charge small, low power, wearable and minimally-invasive devices.
Wearable devices traditionally rely o…
by | Oct 21, 2021 | Alazzawi, Yarub, Aono, Kenji, Chakrabartty, Shantanu, Scheller, Erica
— Technology Description
Engineers in Prof. Shantanu Chakrabartty’s laboratory have developed a convenient, wireless power transfer system that exploits the body’s self-capacitance to charge small, low power, wearable and minimally-invasive devices.
Wearable devices traditionally rely o…
by | Aug 4, 2021 | Chen, Zihao, Shen, Jung-Tsung, Zhou, Yao
— Technology Description
Researchers in the lab of Professor JT Shen at Washington University have developed a two-photon controlled-phase quantum logic gate capable of up to 97% fidelity at room temperature. The design uses chiral optical waveguides with photonic molecules to create a deterministic…
by | Aug 4, 2021 | Chen, Zihao, Shen, Jung-Tsung, Zhou, Yao
— Technology Description
Researchers in the lab of Professor JT Shen at Washington University have developed a two-photon controlled-phase quantum logic gate capable of up to 97% fidelity at room temperature. The design uses chiral optical waveguides with photonic molecules to create a deterministic…
by | Mar 29, 2021 | Chakrabartty, Shantanu, Zhou, Liang
— Technology Description
Engineers in Prof. Shantanu Chakrabartty’s laboratory have developed a self-powered, CMOS-based, nano-scale “smart sensor” and timer system that uses quantum-tunneling for reliable, long-lasting memory or authentication.
This technology is a floating gate …