Recently, the study of the random quantum spin systems attracts lots of attention of many researchers.
近年来,随机量子自旋系统的研究成为人们关注的热点问题之一。
These topological insulators are band insulators with large spin-orbit interactions and exhibit the quantum spin-Hall (QSH) effect.
这些绝缘体是具有强自旋轨道相互作用的能带绝缘体, 并显示出量子自旋霍尔效应.
This part is the highlight of the thesis, and our purpose here is to evaluate the correlation functions and specific heat of the quantum spin models.
这也是本文了亮点之一,我们的目的是计算量子自旋系统的关联函数和比热。
Finally, we apply the theory to study the quantum phase transitions of one-dimensional anisotropic XY quantum spin chain in a transverse field at zero temperature.
最后我们采用李—杨零点方法对一维横场各向异性XY模型在零温下的量子相变作了较为系统的研究。
So by parallel we mean - they're either both spin up remember that's our spin quantum number, that fourth quantum number.
所以我们意味着,它们都是自旋向上,记住我们的自旋量子数,是第四个量子数。
Intel is now looking beyond 2020 at photonics and quantum effects such as spin.
到2020年,英特尔公司打算利用光子或量子的一些效应,比如自旋。
In search of a more stable way to store quantum information, Awschalom has now figured out how to link the spin of a electron to the spin of the nearby nitrogen's nucleus.
为了寻找更稳定的方法来储存量子信息,Awschalom已经计算出一个电子的旋转与附近氮原子核旋转的的联系。
And this spin magnetic quantum number we abbreviate as m sub s, so that's to differentiate from m sub l.
这个自旋磁量子数我们把它简写成m下标s,以和m小标l有所区分。
Several years ago, scientists learned how to change the spin of such electrons using microwave energy and put them to work as quantum bits, or qubits.
数年前,科学家们已经掌握了怎么样通过微波能来改变这些电子的旋转,让它们像量子位元或者量子位一样工作。
If Hogan's idea is correct, the Holometer should detect this quantum noise in the fabric of space-time, throwing our whole perception of the Universe into a spin.
如果Hogan的想法是正确的,测高仪将能探测到时空结构中的量子噪声,给我们现有对宇宙的认知带来巨大的冲击。
The cycle model of a quantum Carnot refrigeration cycle working with many non-interacting spin-1/2 systems and consisting of two isothermal and two adiabatic processes is established.
建立以无相互作用的自族为1/2的粒子组成的自旋系统为工质,由两个绝热和两个等温过程组成的量子卡诺制冷循环模型。
Liu, Xiongjun: Condensed matter theory and ultra-cold atoms, focused on topological phase of quantum matter, synthetic gauge field and spin-orbit coupling effect, many-body physics.
刘雄军:凝聚态理论和超冷原子气。主要关注量子物质拓扑相,摹拟规范场和自旋轨道耦合效应,以及多体物理。
The entanglement detection based on the shot noise is important to the quantum computation, and the spin coherence transport detection is a necessary subject of spintronics.
将散粒噪声用于检测纠缠态对量子计算具有重要的意义,自旋相干输运的检测是自旋电子学的重要研究课题。
The spin phenomenon exists only in quantum theory.
只有在量子理论中才出现这样的自转效应。
A new model such as the causal evolution model of spin networks is needed to describe a dynamics process of loop quantum gravity.
还将这种方法与缠结理论做了比较;要描述圈量子引力的动力学过程,需要新的模型,自旋接网圈的因果演化模型就是其中的一种。
And when you solved the relativistic form of the Schrodinger equation, what you end up with is that you can have two possible values for the magnetic spin quantum number.
当你们解相对论形式的,薛定谔方程,你们最后会得到两个,可能的自旋磁量子数的值。
In Chapter Four, we discuss how to realize spin qubits in graphene via quantum dots.
第四章,我们介绍如何在单层石墨量子点上实现自旋量子比特。
Next, the transport properties of quantum dots driven by spin bias in microwave field are studied.
接着,我们研究了微波场下自旋偏压驱动的量子点模型。
Numerical results show that the resonance peaks of spin current split and the pure spin current disappears due to the magnetic field destroying the degeneration of electron spin in quantum dot.
结果表明,外加磁场破坏量子点能级的自旋简并,使得电荷流和自旋流的共振峰劈裂开,得不到纯自旋流。
The influence of electronic self spin of quantum human body to the energy grade and spectrum line of sort hydrogen atom under the case without outfield was mainly discussed in this paper.
本文主要讨论在没有外场的情况下,量子人体的电子自旋对类氢原子的能级和谱线的影响;
The self spin of quantum human body was studied surrounding the microcosmic field of digital human body in this paper.
本文围绕数字人体微观领域,开展了量子人体的自旋研究。
The effects of magnetic field and bias voltage on spin polarized electron transport through a dual magnetic barriers quantum structure are investigated in this paper.
研究了双磁垒量子结构中,磁场强度和偏压大小对电子自旋极化输运的影响。
Lower dimensional AFH models show some novel properties such as quasi-long-range-order, spin gap, quantum phase transition, etc.
由于低维体系中有很强的量子涨落,使这些体系呈现出许多新奇的特性,如会有自旋准长程序、自旋能隙、量子相变等现象。
Furthermore, the quantum phase transition in an easy-axis antiferromagnetic Heisenberg spin-1 chain is numerically studied.
其次,我们讨论了自旋为1的易磁化轴反铁磁海森堡链的量子相变。
Protons have a property known as spin, a quantum physics counterpart to the more familiar, everyday kind of rotation.
质子有一个属性叫做自旋,这一量子物理量对应到我们日常生活中,就是人们更为熟悉的旋转。
By making use of the strong bound quantum dot model and neglecting the effects of impurity on electron wave function, this thesis is also reported how to use the spin of nuclear as the quantum bit.
利用强束缚量子点模型,忽略杂质对于电子波函数的影响,我们还讨论了如何利用核自旋构造量子位。
Moreover, it is shown that the spin qubits in quantum dots implemented in the armchair graphene ribbon can be correlated by each other over a wide distance.
进一步研究表明,这种单层石墨带中不仅最近邻的两个量子点之间可以产生耦合,长距离的 量子点之间也可以产生耦合。
Called topological insulators, these materials conduct electricity by harnessing a quantum-mechanical property of electrons called spin.
该物质被称为拓扑绝缘体,通过一种带量子机制特性的叫做自旋的电子来导电。
Called topological insulators, these materials conduct electricity by harnessing a quantum-mechanical property of electrons called spin.
该物质被称为拓扑绝缘体,通过一种带量子机制特性的叫做自旋的电子来导电。
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