一个专业博客
今天我自己没有什么好写的,最近忙于非物理的事情比较多(假如这也包括很多论文答辩的话),arXiv也没有什么令人特别感兴趣的东西。本来我约好宋伟和庞毅继续批评Horava理论的,但网上并没有值得批评的文章。Horava理论短暂降温了两个礼拜,现在又开始回温了,但多数还是应用,例如今天出现的蔡一夫同学的文章。
向大家推荐一个很好的理论物理专业博客,NEQNET: Non-equilibrium Phenomena,话题主要是理论物理,也有些其他话题,例如最近关于哈佛大学面临破产的可能。抄一下这个消息:
Just wanted to finally end my day and go to sleep (way too much work today), but heard some news and cannot help sharing it with you.
According to Boston Magazine Harvard University is to face some very serious problems. The University currently spends about 1.5 billion USD/year, it has lost several billion during crisis - including 500 million thanks to Larry Summers, super feminist fighter (essentially, he presented those 500 million as a gift for GS). If only Dr. Summers spent more time thinking about what he was supposed to think about… but he is clearly not the person to blame as they want him to be.
11 billion of Harvard’s money are currently to be repaid to private investors as capital commitments in the next 10 years, Harvard currently has 13 billion in various assets - and what if the crisis did not reach its bottom yet? What if Harvard is to expect more endowment losses? And all this does not include construction of the new campus in Allston which will be surely put on hold.
Sad, saaad news.
另一个有趣的帖子是谈Arkani-Hamed警告大家不要随便修改爱因斯坦引力理论的。Arkani在他的演讲中并没有提到Horava理论。我还是转贴一下这一段:
The second day of the Workshop on Tests of Gravity (and here is my blog post about the first day) was mostly devoted to analog models (Bill Unruh, Michael Uhlmann, George Pickett) and models of modified gravity (Nima Arkani-Hamed, Justin Khoury, Stacy McGaugh, Ted Jacobson, Levon Pogosyan and Mark Wyman).
Regarding analog models I don’t have too much to report - since I am located here at relatively close vicinity to Grigory Volovik (he works in Espoo, while I work in Helsinki), I think I know the agenda quite well, and my overall impression that no so many exciting things happen on the field was confirmed on the workshop. Basically, it proves to be relatively easy to construct models of relativistic chiral fermions and vectors from non-relativistic condensed matter systems (for example, He-3). However, it seems to be impossible to construct relativistic dynamical gravity (that is, effective theory with Einstein-Hilbert action) starting from these systems - recent attempt by Horava seemed to be promising, but the ultimate answer is still the same. What we can do at most is to model a “relativistic” field theory on a curved background (such as Painleve-Gullstrand BH), but this background is static and backreaction of our field theoretic degrees of freedom on it is zero. That’s what activities on the field of analog models of gravity revolve around for almost decade.
So, let me turn to modified gravity and Nima’s talk. Since nobody in the physics blogosphere seems to really discuss the content of his talk (see Mark Trodden’s report - he attended the workshop, too), let me proudly do it for you 
Nima Arkani-Hamed
As you may already know, the title of the talk is “Don’t modify gravity - understand it“. Nima started by saying that he spent too much time inventing models of modified gravity and now wants to officially confess his sins.
Why? First (but not the most important as you’ll see below), because modified gravity is boring - in all (or most all) it can be reduced to usual GR + scalar field. More accurately, he has introduced the following classification: all modified gravity models can be divided into two classes -
1. boring, with subclasses a) very boring (and not excluded) and b) moderately boring (and excluded by experiments) - because of the name of the class he did not want to talk about those models at all
2. exciting. This class, according to Nima, includes only deeply flawed models such as DGP (where aforementioned scalar field possesses “Galilean invariance”) and Higgs phases of gravity (where scalar fields are essentially Goldstone modes of spontaneously broken spacetime symmetries).
So, why exciting models are deeply flawed from Nima’s point of view? The reason is the fact that, according to well-known theorem quantum gravity (based on usual GR) can not have local observables. The physical reason for that is simple. Quantum mechanics in principle allows us to measure positions of quantum particles with infinite precision (not both position and momentum though). However, measuring position with infinite precision assumes that we have an infinitely heavy apparatus to measure it. Quantum gravity in turn does not allow us to have an infinitely heavy apparatus (sufficiently heavy one would trivially turn into black hole).
A correct language for describing gravitational degrees of freedom should look more like holography. Basically, holography means non-local degrees of freedom, and non-local degrees of freedom mean holography.
Yet, non-locality of gravity will only be noticeable only if we take into account non-perturbative effects, suppressed by
,
where G_N is Newton constant, that is, gravity is non-local but in a very subtle way.
Now, why exciting models are deeply flawed according to Nima? Well, Higgs phases of gravity violate “non-local” part in the statement above - they are manifestly local. On the other hand, DGP violates “subtle” part of the statement above, since it allows for superluminal propagation.
Basically, a general effective scalar field theory featuring CP violation looks like
DGP is a rather special CP violating theory, where the last term before the dots is canceled due to a special symmetry, and this allows theory to feature superluminal propagation.
He concluded by explaining what questions should one study to understand non-local nature of gravity better. Basically, since non-locality is suppressed by a factor , it should become important again in situations where some kind of
enhancement is present - such as questions related to BH information paradox and eternal inflation (in the latter case, enhancement comes from the fact that you are never able to measure more than
models in dS universe, where S is de Sitter entropy).
I’ll try to cover remaining talks of the second day tomorrow.
2009年6月10日 11:16:10
kk:
哦,看来你的把握也挺大,事先为吴老师做决定了
2009年6月10日 11:17:15
是否正是出乎大多数人的意见,吴咏时老师觉得值得 PRL 呢?
2009年6月10日 11:18:36
kk:
看不懂你的话,你问过大多数人了?
2009年6月10日 11:18:37
没有没有,只是吴老师威名,晚辈的羡慕一把,呵呵
2009年6月10日 11:22:34
kk:
哦,那你不需要读文章了,以后就看作者吧。
2009年6月10日 11:39:09
博主您的博客挺不错的,很喜欢。
可否做个链接?
已经添加好了您的链接
希望能通过您的审核!
博客名称:美丽俏佳人
博客域名:www.54oc.cn/
2009年6月10日 14:35:52
美丽俏佳人:
你的博客内容和我们这里谈论的话题相去太远。
2009年6月10日 15:03:58
李老师的博客就是专业的博客呵呵
2009年6月10日 15:06:43
李老师,喜欢你的文章,能做个链接吗呵呵,我做好了。
2009年6月10日 15:52:52
老时:
你的博客内容跟这里也不合拍。
2009年6月10日 19:40:25
看起来,在nima眼中,horava的理论属于very boring的,哈哈。
2009年6月10日 20:16:32
李老师,麻烦你改一下我那个链接的地址吧,那个博客好久不用了,呵呵
http://hi.baidu.com/shi_zonghua
2009年6月10日 20:24:29
Shi Zonghua:
已改。
2009年6月10日 21:18:18
打卡学习
2009年6月10日 23:58:14
呵呵,谢谢李老师的回复。
2009年6月12日 0:17:34
Quantum gravity in turn does not allow us to have an infinitely heavy apparatus (sufficiently heavy one would trivially turn into black hole).
我的感觉是,这个理由的确是QG最根本的障碍之一,同时也是导致大家集中在一些特殊的BH上面寻找答案的原因。从这一点延伸,我非常赞同水仙老师的猜测QG的关键也许正是holography/nonlocality,因为holography正是BH所显现的QG一角。
但是我觉得还有一点是现在的BH所不能反映的,就是如何探讨背景含时的QG。虽然宇宙学正好反映了这一类的引力,但宇宙学目前仅仅提供了一个应用的平台,感觉除了eternal inflation稍稍占了QG的边但远没有BH那样揭露的那么清楚。再加上eternal inflation的学派林立,更让人摸不着边际。
那么horava的工作本身也是在唯象上走了一步,并不能算成对QG有多大贡献,但是引入非相对论的高阶导数来改善重正化性的确还是有很大进步和原创想法的。在这里我有一点不是很明白,如水仙老师文章指出horava gravity原始的模型在UV自由度实际上是确失了,我的理解是必须要求UV terms是由cotton张量提供才会出现这个问题,如果破坏掉精细平衡条件,这一问题是不是可以得以改善呢?
好在偶灌水是很讲良心的,里面没有吹牛太离谱。其实认真看horava的原文我发现他的语句是很朴实的,并没有吹嘘自己的咚咚多么的fundamental,也没有说他的工作就是QG的唯一出路之类的,读原文时心里还是踏实的。
另外扯淡一句,皇马烧钱也掩饰不了自己是跛腿的马,属于原创性极差型的和严重拿来主义。。。
2009年6月12日 0:58:02
finncarey:
我还同意Nima的观点,我觉得我们应该好好在爱因斯坦的引力理论中做事,holography,很重要。
Horava并没有帮助我们理解holography,相反,可能与hologarphy背道而驰。
2009年6月12日 11:11:50
那个非平衡的blog偶也一直订阅了,狠不错的
2009年6月23日 20:00:40
那博客我也一直在看~
2009年7月21日 13:39:48
倒,蔡一夫同学是我本科同学。。可是他的论文我一点也看不懂。。。