个人资料
  • 博客访问:
正文

听歌,悟quantum entanglement

(2008-08-16 23:09:09) 下一个
今天先读到一段综述 (by Shalini Lal from UCLA), 关于Gell-Mann 1994年的书 The Quark and the Jaguar. 

It explains how the world of quasi-classical physics, which appears deterministic, emerges from the underlying quantum mechanical state (which is necessarily probabilistic). Gell-Mann proposes that the same mechanism operates at varying levels of analysis from the electron to the entire universe. 

The quantum state of an electron is entangled with that of another electron if the quantum state of one electron (position and momentum) is influenced by the quantum state of the other electron. For instrance the two electrons in a molecule of helium interact with each other through the electrical repulsion between them. From this interaction, their joint quantum state is one in which the states of the two electrons are entangled.

想着我的建模工作,如何从中受了启发,可能真的实现quantum entanglement. 从而,粒子们的学习之旅将是电子云而不再是牛顿力学的合力啦!想着书中entangled 电子们,我模型中的思想的碎片们,现实世界里的人与人。。。 Yeah, what a beautiful world!
就这样,出发,跟着豆豆去朋友家party, 豆豆的儿子在车里从他的ipod放歌给我们听,我听到了这一首(歌与词都转贴自红豆豆博客):

【我要占据你的心】

I Will Possess Your Heart - Death Cab For Cutie

How I wish you could see the potential, the potential of you and me
It's like a book elegantly bound, but in a language that you can't read - just yet
You gotta spend some time--love, you gotta spend some time with me
And I know that you'll find--love, I will possess your heart


There are days when outside your window, I see my reflection as I slowly pass
And I long for this mirrored perspective, when we'll be lovers, lovers at last
You gotta spend some time--love, you gotta spend some time with me
And I know that you'll find--love, I will possess your heart

I will possess your heart

You reject my advances and desperate pleas
I won't let you, let me down so easily, so easily

You gotta spend some time--love, you gotta spend some time with me
And I know that you'll find--love, I will possess your heart (x3)

I will possess your heart




 
[ 打印 ]
阅读 ()评论 (2)
评论
一个人的亲密 回复 悄悄话 What a beautiful quantum entanglement!
登录后才可评论.