看这个 MICHAEL LUO的网页 ,有华裔说有人问自己哪来的,其实他明知对方是在问自己是什么种族,却硬是不正面回答,而是说自己纽约哪的,出生在哪,直到对方问自己父母哪来的,才说是上海。为什么不痛痛快快说自己是 CHINESE 呢?好像 CHINESE 是件不光彩的事情似的,要隐藏一下。其实,这就是种族自卑心理作怪。自己瞧不起自己,也就不能怪别人歧视了。 大概10年前,我公司的第一个版权案子,被告是赛门铁克。当时我对知识产权方面的法律知道的很少,对联邦程序也不清楚,都不知道案子进展可以查 PACER,经常被律师(某大律师事务所的白人)蒙在鼓里。后来才知道PACER,发现该律师很多事情都瞒着我,立刻决定将其开除,换人。 于是找了另外的律师,一个看起来挺精炼的白人小老头,大概60岁了,自称还在某法学院教过书。第一次在我办公室见面,当然需要聊各种背景啊,等等之类,也算是互相了解。正聊着,他电话响了,是他太太打来,大概问他在哪干什么。这人说道,在跟客户面谈,“Heis a Chinese”。也不知是我听力好还是手机声音太大,那女士大概说,你这样说人家不好吧。这律师辩解说,"But he is proud of it." 哈哈。真是。可见在他们心里,CHINESE 是一个贬义词,称中国人是 CHINESE 近乎侮辱。生在美国的华人自己可能也这么认为。但是至少这个白人律师从我这得到了一个概念,我自己没有认为 CHINESE 是什么坏事。换言之,我具备种族自信,不会认为中国人比盎格鲁-撒克逊差。 当然了,鸦片战争中国被盎格鲁-撒克逊打败了,随后中国又经历了一系列的战败。这种战争造成的种族心理优势与劣势是客观存在的。但是 朝鲜战争改变了这个局面,所以我们说朝鲜战争也是一场人权战场。 生物的很多素质是基因决定,基因素质是客观的。人是一种生物,人也是如此。一个人首先得有种族自信,也就是说相信你自己这个种族的基因还行,进化程度相对可以。注意,这个种族自信是一个种族概念,而不是个体概念。你不能说,我家族基因还行。那不管用。因为你没法在脸上贴个标签说我家族基因不错。如果你认为自己种族基因不行,只认为自己家族基因可以,就出问题了。就像一头猪如果说自己基因特好,有什么用呢? 世界文明发展的涨落有变化,但种族的潜力是基因决定的。这一点不能忽略。 所以,海外华人要有尊严,先得自己明白CHINESE 这个遗传特征的是值得珍惜的。这就得了解自己的文化,自己的历史,从一个更大的角度、更长的时间尺度来看待民族地位问题,而不是拘泥于满清与民国时期的历史。 生长在中国国内的人极少有自我认同问题,没有 identity crisis。很多来自中国的如果别人问起哪来的,会说 PRC - The People's Republic。但在美国生长的华人孩子就难说了。贺梅在贝克家被抚养到基本懂事,就开始发现自己不是蓝眼睛,否认自己是中国人,对英文媒体说自己是墨西哥人。她回到中国后,这种自我否定心理就基本消失了。 记得我在北加州联邦法院起诉某上市公司侵权,等待陪审团裁决结果,因为陪审团随时可能出结果,大家也不能离开,被告律师也相当焦虑,找些话题聊天,聊到罗马帝国之类,话题转到了同时代的汉帝国。我就跟他们讲到,汉之前还有个大秦帝国 -- The GREAT CHIN EMPIRE that built the great wall。所谓 CHINESE,就是源自这个 CHIN。洋律们一听,原来如此,不是脆瓷器。美国出生的孩子的教育应该告诉他们 CHINESE 是何意。
钱换不来爱情,钱换不来。。。(the list continues ). 廖凯原捐一亿美金,也得不到去北大物理系讲 “凯原量子信息力学KQID” 的机会,而只能去北大法学院讲。这说明什么? 这再次说明钱不是万能的。钱换不来科学地位。 廖凯原 就花10亿美金,其“凯原量子信息力学KQID”也得不到一次物理学权威刊物正规的引用。 廖凯原就算可怜鸡师傅,花一亿美金给鸡打脑白金,鸡师傅也还是不懂初中物理,也还是只能进野鸡大学,不仅不会解决走路上楼梯的初中物理问题,而且惨到连正确答案摆在面前也看不出这是正确答案。 Oh, let's not forget what I wrote in Court: 【Yang had college education from Nanjing Chemical Engineering College, Nanjing, China (Chinese: 南京化工学院).He studied as a graduate student in the 1990s at the University of Paderborn in Germany, where he graduated in 1999. No scholarly papers can be found to be authored by Defendant Yang in leading western research journals】 从数百次引用中挑几个,再次让 Red-eye-chicken-master 看看什么叫引用: Hawking radiation in sonic black holes S. Giovanazzi∗ The long-range part of the Coulomb interaction could substantially renormalize the Hawking temperature in long wires in a way similar to how it does for the scattering from an impurity . Conductance of Interacting Quasi-One-Dimensional Electron Gas with a Scatterer Authors: A. V. Borin, K. E. Nagaev .... The summation of most divergent contributions may be performed using the renormalization procedure suggested by Yue et al.14 . Transport properties of a two-lead Luttinger liquid junction out of equilibrium: fermionic representation Authors: D.N. Aristov, P. Wolfle The transport through Luttinger liquid junctions at not too strong interaction has also been calculated using the Functional Renormalization Group method as reviewed in14 ...In this paper we extend the approach of Yue et al Electron-electron interaction effects on transport through mesoscopic superconducting hybrid junctions Authors: Arijit Saha Weak interaction renormalization group approach In this sub section we introduce the weak interaction renormalization group (WIRG) method which was first developed by Yue et al. Functional renormalization group approach to correlated fermion systems Authors: Walter Metzner, Manfred Salmhofer, Carsten Honerkamp, Volker Meden, Kurt Schoenhammer ... The idea of an oscillatory decaying potential is similarly inherent to a poor man’s fermionic RG approach (Yue et al., 1994). Conductance through a potential barrier embedded in a Luttinger liquid: nonuniversal scaling at strong coupling Authors: D.N. Aristov, P. Woelfle The fermionic representation offers the possibility to connect the fermionic degrees of freedom in the (non-interacting) leads smoothly with the degrees of freedom in the interacting system. In other words, it allows to use the scattering states of the system in the non-interacting limit as a basis of description. On the simplest level, in lowest order in the interaction, this program has been carried out in a seminal paper by Yue , Matveev and Glazman. Spintronics with NSN Junction of one-dimensional quantum wires : A study of Pure Spin Current and Magnetoresistance Authors: Sourin Das, Sumathi Rao, Arijit Saha We see that there is a logarithmic singularity at the k → 0 limit which implies that the lowest order perturbation theory is not enough to calculate correction to the reflection and AR amplitudes when the momenta of the incident particles are very close to the Fermi wave vector. Following Yue et al. , we sum up these most divergent processes using the ”poor man’s scaling” approach to obtain RG equations for the normal refection amplitude... Functional Renormalization-Group Analysis of Luttinger Liquids with Impurities Authors: Sabine Andergassen For Luttinger liquids with repulsive interactions (Kρ 1) already a single static impurity has a strong effect at low energy scales, even if the impurity potential is relatively weak . Junction of several weakly interacting quantum wires: a renormalization group study Authors: Siddhartha Lal (1), Sumathi Rao (2), Diptiman Sen (1) ((1) IISc, Bangalore, (2) Pennsylvania State University and HRI, Allahabad) Yue et al use this idea to derive the RG equations for an arbitrary S-matrix located at the junction of two semi-infinite wires... Let us briefly present the method of Yue et al. .... Yue et al then derive the RG equations for the S-matrix which is now considered to be a function of a distance scale L; they show that −ln(kd) in Eqs. (17-18) can effectively be replaced by dl, where l = ln(L/d). ..Yue et al show that the backscattering interaction governed by g1 leads to a logarithmic renormalization of the interaction parameters g1 and g2 ; we will ignore that effect here since it plays no role to first order in the gi . I-V characteristics and differential conductance fluctuations of Au nanowires Authors: H. Mehrez, Alex Wlasenko, Brian Larade, Jeremy Taylor, Peter Grutter, Hong Guo In the rest of this section, we follow the interesting idea of the charging effect and analyze it in more detail to understand if this effect, which leads to channel closing53,54 can give rise to nonlinear I-V curves of atomic devices. To start, we follow the work of Yue et. al.71 by assuming a strong interaction and write the renormalized transmission coefficient...
副标题:建议参加辩论的同学们向林肯学习 大家都知道,林肯家境贫寒,没有上过学,基本是自学成才。后来当了律师,议员,再后来当了总统,写了不少精彩的演说,江泽民都能背诵:" Four score and seven years ago..." ,可见影响力之大。 林肯当律师的时候,曾经与一个强大的对手进行专利诉讼,对方律师当然是名牌法学院毕业的高人。结果呢,林肯赢了。后来,林肯竞选议员,其对手也很强大,会希腊语、拉丁语,学过逻辑与雄辩术,相当于美国贵族了。结果一辩论,林肯又赢了。一直赢下去,最后林肯当了总统。 除了诚实的品格之外,林肯赢在他说话有说服力。那么,林肯说服力从何而来?秘诀在哪? 我看完电影《LINCOLN》之后,曾写过一篇博文“ 电影《LINCOLN》与欧几里得 ”。那篇博文里提到一本书 《亚伯拉罕-林肯与理性的结构》, Abraham Lincoln and the Structure of Reason ,在亚马逊网站上评论很好,几乎5星。《 亚伯拉罕-林肯与理性的结构》这本书的主要内容就是分析林肯为什么能赢。 这两位作者发现,林肯的每一场辩论、每一场演讲,都是按照欧几里得几何证明的逻辑路线,换句话说,林肯把几何证明转化成了演讲,一步一步地进行推理,乃至无懈可击---或者有懈可击但却超过了对手的逻辑能力。 林肯没上过学,怎么会欧几里得思维呢?书中是这么写的:林肯先是学过一些几何测量, 后来40岁时 ,开始认真学习欧几里得的几何原理,每天点着蜡烛仔细攻读,有一晚上,他终于读懂了,兴奋得跑出去,找不到人说话,就跟马夫分享自己的新知识。