bob体育首页

<acronym id="uwq4s"><center id="uwq4s"></center></acronym>
<acronym id="uwq4s"><small id="uwq4s"></small></acronym>
<acronym id="uwq4s"><center id="uwq4s"></center></acronym>
<rt id="uwq4s"></rt>

Research

Vice-President (Research)'s Picks: Breakthrough in Understanding Quantum Metals

Vice-President (Research)'s Picks:
Breakthrough in Understanding Quantum Metals

The “high-temperature” superconductivity of metals holds great promise for enabling highly efficient energy transportation, but it requires extremely cold temperatures that are currently too costly and energy-intensive to replicate. A better understanding of quantum critical metals themselves is needed. New research from Dr Meng Zi Yang in the Department of Physics and his collaborators takes us closer to overcoming this challenge.

More information on Research Stories

Top

Top
<acronym id="uwq4s"><center id="uwq4s"></center></acronym>
<acronym id="uwq4s"><small id="uwq4s"></small></acronym>
<acronym id="uwq4s"><center id="uwq4s"></center></acronym>
<rt id="uwq4s"></rt>

体球网即时比分

下载ag亚游

中国福彩下载app下载

天奇彩票平台-首页

w88

bf必发彩票官方

wwwyabo

大发国际官网

1号庄