搜索结果: 106-120 共查到“国际动态 凝聚态物理学”相关记录221条 . 查询时间(2.156 秒)
Unconventional quasiparticles predicted in conventional crystals
Unconventional quasiparticles predicted conventional crystals
2016/8/1
An international team of researchers has predicted the existence of several previously unknown types of quantum particles in materials. The particles — which belong to the class of particles known as ...
显微新技术可在原子尺度上测磁性
显微新技术 原子尺度 磁性
2016/6/22
美国能源部橡树岭国家实验室研究人员与瑞典乌普萨拉大学的同行合作,开发出一种新型电子显微技术,可在原子尺度上检测材料的磁性。研究人员称,这一技术或可为制造体积更小的磁性硬盘驱动器提供新思路。在电子显微技术领域,光学镜头造成的像差是一个让人头疼的问题,像差的扭曲效果会使图像模糊,不利于观测。因此,在过去数十年,研究人员一直想方设法消除各种像差,以求得到更清晰的图像。但此次橡树岭国家实验室和乌普萨拉大学...
Scientists Find Surprising Magnetic Excitations in a Metallic Compound
Scientists Magnetic Excitations Metallic Compound
2016/6/12
Some three-dimensional materials can exhibit exotic properties that only exist in "lower" dimensions. For example, in one-dimensional chains of atoms that emerge within a bulk sample, electrons can se...
新型量子热晶体管能有效控制热流
新型量子热晶体管 控制热流
2016/6/2
法国普瓦提埃大学和国家科学研究院(CNRS)研究人员设计出一种能像电子晶体管控制电流那样控制热流的量子热晶体管,能从发电站及其他能源系统收集并循环利用余热。目前虽有传输和引导余热的方法,但无法对热流进行有效控制,量子热晶体管做到了这一点。据物理学家组织网23016年5月31日报道,虽然这不是第一个热晶体管,但是第一个由量子物体制造的热晶体管,而其他热晶体管多是用宏观材料如固体或相变材料制造。这种量...
Scientists create ‘rewritable magnetic charge ice’
Scientists rewritable magnetic charge ice
2016/5/31
A team of scientists working at the U.S. Department of Energy’s (DOE) Argonne National Laboratory and led by Northern Illinois University physicist Zhili Xiao has created a ne...
石墨烯薄膜可冷却高功率电子器件
石墨烯薄膜 冷却高功率 电子器件
2016/5/11
随着设备和组件变得越来越小,在未来超高效电子系统的开发中,电子和光电子的散热是一个严重问题。现在,瑞典查尔姆斯理工大学的研究人员开发出一种通过功能化石墨烯纳米薄片高效冷却电子器件的技术,或可为解决这一问题铺平道路。相关研究成果发表在最新一期的《自然·通讯》杂志上。
By showing that a phenomenon dubbed the “inverse spin Hall effect” works in several organic semiconductors – including carbon-60 buckyballs – University of Utah physicists changed magnetic “spin curre...
Penn Engineers Develop First Transistors Made Entirely of Nanocrystal ‘Inks’
Penn Engineers Transistors Nanocrystal Inks
2016/4/13
The transistor is the most fundamental building block of electronics, used to build circuits capable of amplifying electrical signals or switching them between the 0s and 1s at the heart of digital co...
Experiments show magnetic chips could dramatically increase computing’s energy efficiency
magnetic chips dramatically increase computing energy efficiency
2016/3/21
In a breakthrough for energy-efficient computing, UC Berkeley engineers have shown for the first time that magnetic chips can actually operate at the lowest fundamental energy dissipation theoret...
Down the rabbit hole: how electrons travel through exotic new material
Down the rabbit hole electrons travel exotic new material
2016/3/21
Researchers at Princeton University have observed a bizarre behavior in a strange new crystal that could hold the key for future electronic technologies. Unlike most materials in which elec...
A Proposed Superconductivity Theory Receives Exclusive Experimental Confirmation
Superconductivity Theory Experimental Confirmation
2016/3/14
Superconductivity–a quantum phenomenon in which metals below a certain temperature develop flow of current with no loss or resistance–is one of the most exciting problems in physics, which has resulte...
Phosphine as a superconductor?Sure,but the story may be complicated
Phosphine superconductor story complicated
2016/2/23
Phosphine is one of the newest materials to be named a superconductor, a material through which electricity can flow with zero resistance.In 2015, scientists reported that they had liquefied the chemi...
First self-assembled superconductor structure created
self-assembled superconductor structure
2016/2/22
Building on nearly two decades’ worth of research, a multidisciplinary team at Cornell has blazed a new trail by creating a self-assembled, three-dimensional gyroidal superconductor.Ulrich Wiesner, th...
Heavy fermions get nuclear boost on way to superconductivity
Heavy fermions nuclear boost superconductivity
2016/2/22
In a surprising find, physicists from the United States, Germany and China have discovered that nuclear effects help bring about superconductivity in ytterbium dirhodium disilicide (YRS), one of the m...
Flexible film may lead to phone-sized cancer detector
Flexible film phone-sized cancer detector
2016/1/22
A thin, stretchable film that coils light waves like a Slinky could one day lead to more precise, less expensive monitoring for cancer survivors.The University of Michigan chemical engineers who devel...