2015-02-05 11:13:00

NCKU Transnational Research Team Develops First All-electric Spin Transistor

2015-02-05 11:13:00 | Share this post:

Scientists have long been puzzled by the spin-field-effect transistor (spin FET) and great efforts have been put into attempt of solving the long challenged problems. Now a Tainan-based National Cheng Kung University (NCKU) research team has successfully developed the first spin FET.

 

ImgDesc
ImgDesc


A team led by Prof. Tse-Ming Chen from the Department of Physics at NCKU, in cooperation with Cavendish Laboratory, and University College of London in UK, has developed an all-electric all-semiconductor spin FET, the university revealed at a press conference in Taipei today.

Prof. Chen said, the spin FET, since envisioned by Datta and Das in 1990, has long been believed to be the solution where Moore’s law fails to deliver.

However, the realization of a functional spin FET has hitherto not been achieved, owing to several technical problems such as the low spin-injection efficiency, the limited spin lifetime, and the phase spread of the accumulated spins, according to Prof. Chen.

 



He said, “We solved the problems by employing two quantum point contacts as spin injectors and detectors.”

“We exploit two engineering architectures of spin-orbit coupling, the interaction between the electron’s spin and its motion, on the device to electrically inject, manipulate, and detect spins,” he added.

Prof. Chen also explained, The all-electric all-semiconductor characteristics of such a device allow it to be easily compatible with large-scale integrated circuits and hold the most promise for information processing in the post-CMOS era.

Their results published in the January 2015 issue of Nature Nanotechnology with additional introduction in news & views article written by Marc Cahay.

The technology underlying the study is now in the process of applying for a patent, according to Prof. Chen.

 

 

Source: NCKU News Center

Share this post:

Related articles

Major Breakthrough in Integrated Circuits! Researchers Develop Transistors at the 0.7nm Scale

2018-10-18 13:31:00

Research Highlights

High-performance miniaturized transistors are the core of every digital device from smartphones to biomedicine, genet...

Read More

開拓全場同相成像系統 Prof. Paul-Antoine Moreau 跨國合作研究成果登 國際期刊 PNAS

2023-04-14 11:06:00

Research Highlights

In this regard, Prof. Paul-Antoine Moreau from QFort-NCKU and his colleagues from the University of Glasgow and the M...

Read More

下世代超輕薄可捲曲晶片 張景皓團隊找出可撓式奈米科技關鍵

2022-07-19 11:40:00

Research Highlights

超輕薄,可捲曲,豐富應用性的晶片不再是夢想。國立成功大學物理系副教授兼成大前沿量子科技研究中心張景皓與其團隊,共同分析「石墨烯」材料,發現捲曲後有新的獨特應用功能性,為此與團隊投入研究,從無到有,建立起基礎物理(量子態)模型。研究成果...

Read More

Exploring New Materials to Realize the Quantum Anomalous Hall Effect

2020-07-27 14:26:00

Research Highlights

The transmission of current with zero resistance would reduce energy consumption and largely resolve the issue of hea...

Read More