手持电子设备的发热问题值得关注
文章来源:未知 文章作者:enread 发布时间:2014-01-23 06:08 字体: [ ]  进入论坛
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As smartphones, tablets and other gadgets1 become smaller and more sophisticated, the heat they generate while in use increases. This is a growing problem because it can cause the electronics inside the gadgets to fail. Conventional wisdom suggests the solution is to keep the guts2 of these gadgets cool. But a new University at Buffalo3 research paper hints at the opposite: that is, to make laptops and other portable electronic devices more robust4, more heat might be the answer. "We've found that it's possible to protect nanoelectronic devices from the heat they generate in a way that preserves how these devices function," said Jonathan Bird, UB professor of electrical engineering. "This will hopefully allow us to continue developing more powerful smartphones, tablets and other devices without having a fundamental meltdown in their operation due to overheating."
 
The paper, "Formation of a protected sub-band for conduction in quantum point contacts under extreme biasing(偏置)," was published Jan. 19 in the journal Nature Nanotechnology. Bird is the co-lead author along with Jong Han, UB associate professor of physics. Contributing authors are Jebum Lee and Jungwoo Song, both recently earned PhDs at UB; Shiran Xiao, PhD candidate at UB; and John L. Reno, Center for Integrated Nanotechnologies at Sandia National Laboratories.
 
Heat in electronic devices is generated by the movement of electrons through transistors6, resistors and other elements of an electrical network. Depending on the network, there are a variety of ways, such as cooling fans and heat sinks, to prevent the circuits from overheating.
 
But as more integrated circuits and transistors are added to devices to boost their computing7 power, it's becoming more difficult to keep those elements cool. Most research centers on developing advanced materials that are capable of withstanding the extreme environment inside smartphones, laptops and other devices.
 
While advanced materials show tremendous potential, the UB research suggests there may still be room within the existing paradigm8 of electronic devices to continue developing more powerful computers.
 
To achieve their findings, the researchers fabricated nanoscale semiconductor9 devices in a state-of-the-art gallium arsenide crystal provided to UB by Sandia's Reno. The researchers then subjected the chip to a large voltage, squeezing an electrical current through the nanoconductors. This, in turn, increased the amount of heat circulating through the chip's nano transistor5.
 
But instead of degrading the device, the nanotransistor spontaneously transformed itself into a quantum state which was protected from the effect of heating and provided a robust channel of electric current. To help explain, Bird offered an analogy to Niagara Falls. "The water, or energy, comes from a source; in this case, the Great Lakes. It's channeled into a narrow point (the Niagara River) and ultimately flows over Niagara Falls. At the bottom of waterfall is dissipated energy. But unlike the waterfall, this dissipated energy recirculates throughout the chip and changes how heat affects, or in this case doesn't affect, the network's operation."
 
While this behavior may seem unusual, especially conceptualizing it in terms of water flowing over a waterfall, it is the direct result of the quantum mechanical nature of electronics when viewed on the nanoscale. The current is made up of electrons which spontaneously organize to form a narrow conducting filament10 through the nanoconductor. It is this filament that is so robust against the effects of heating.
 
"We're not actually eliminating the heat, but we've managed to stop it from affecting the electrical network. In a way, this is an optimization11 of the current paradigm," said Han, who developed the theoretical models which explain the findings.
 
The research was supported by the U.S. Department of Energy.


点击收听单词发音收听单词发音  

1 gadgets 7239f3f3f78d7b7d8bbb906e62f300b4     
n.小机械,小器具( gadget的名词复数 )
参考例句:
  • Certainly. The idea is not to have a house full of gadgets. 当然。设想是房屋不再充满小配件。 来自超越目标英语 第4册
  • This meant more gadgets and more experiments. 这意味着要设计出更多的装置,做更多的实验。 来自英汉非文学 - 科学史
2 guts Yraziv     
v.狼吞虎咽,贪婪地吃,飞碟游戏(比赛双方每组5人,相距15码,互相掷接飞碟);毁坏(建筑物等)的内部( gut的第三人称单数 );取出…的内脏n.勇气( gut的名词复数 );内脏;消化道的下段;肠
参考例句:
  • I'll only cook fish if the guts have been removed. 鱼若已收拾干净,我只需烧一下即可。
  • Barbara hasn't got the guts to leave her mother. 巴巴拉没有勇气离开她妈妈。 来自《简明英汉词典》
3 buffalo 1Sby4     
n.(北美)野牛;(亚洲)水牛
参考例句:
  • Asian buffalo isn't as wild as that of America's. 亚洲水牛比美洲水牛温顺些。
  • The boots are made of buffalo hide. 这双靴子是由水牛皮制成的。
4 robust FXvx7     
adj.强壮的,强健的,粗野的,需要体力的,浓的
参考例句:
  • She is too tall and robust.她个子太高,身体太壮。
  • China wants to keep growth robust to reduce poverty and avoid job losses,AP commented.美联社评论道,中国希望保持经济强势增长,以减少贫困和失业状况。
5 transistor WnFwS     
n.晶体管,晶体管收音机
参考例句:
  • This make of transistor radio is small and beautifully designed.这半导体收音机小巧玲珑。
  • Every transistor has at least three electrodes.每个晶体管至少有三个电极。
6 transistors ff750796e6ff1fb40d6a8248a6485dc3     
晶体管( transistor的名词复数 ); 晶体管收音机,半导体收音机
参考例句:
  • In semiconductor receivers transistors take the place of vacuum tubes. 在半导体收音机中晶体管代替了真空管。
  • We often turn to this handbook for information on transistors. 我们常从这本手册查阅有关晶体管的资料。
7 computing tvBzxs     
n.计算
参考例句:
  • to work in computing 从事信息处理
  • Back in the dark ages of computing, in about 1980, they started a software company. 早在计算机尚未普及的时代(约1980年),他们就创办了软件公司。
8 paradigm c48zJ     
n.例子,模范,词形变化表
参考例句:
  • He had become the paradigm of the successful man. 他已经成为成功人士的典范。
  • Moreover,the results of this research can be the new learning paradigm for digital design studios.除此之外,本研究的研究成果也可以为数位设计课程建立一个新的学习范例。
9 semiconductor Uzuwq     
n.半导体
参考例句:
  • In the beginning,engineers hoped to use semiconductor lasers.在开始时,工程师们希望能够利用半导体激光器。
  • The main agent of the company brand semiconductor sales.本公司主要代理各品牌半导体销售。
10 filament sgCzj     
n.细丝;长丝;灯丝
参考例句:
  • The source of electrons in an electron microscope is a heated filament.电子显微镜中的电子源,是一加热的灯丝。
  • The lack of air in the bulb prevents the filament from burning up.灯泡内缺乏空气就使灯丝不致烧掉。
11 optimization gIhxY     
n.最佳化,最优化;优选法;优化组合
参考例句:
  • Development of detergents has required optimization of the surfactants structure. 发展洗涤剂时,要求使用最恰当的表面活性剂结构。 来自辞典例句
  • In the case of productivity tools and other non-entertainment-oriented products, this optimization means minimizing work. 对于生产工具和其他非娱乐导向的产品而言,这意味着将工作负荷降至最低。 来自About Face 3交互设计精髓
TAG标签: heat gadgets electronic
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