NABC60
加入时间: 2008/04/24
文章: 2900
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作者:NABC60 在 驴鸣镇 发贴, 来自 http://www.hjclub.org
旁观者昏 “从方励之的学术水平说起(附方励之论文LIST)” 2012-04-10
在曾节明的一个帖子底下YOKE有一个跟贴,说到方励之的学术水平。
YOKE说方励之学术水平不行,也就是大学学报的水平。为了说明这一点,他还引用了马悲鸣的文章。马悲鸣,毕竟,呵呵,按照YOKE的说法,是学理工科的。
不得了,两个学理工科的都说老方学术不行。类似的说法以前YANKEE也说过。
先说说马悲鸣。马悲鸣的理科水平是那种把两个人生日相同的概率算成是 1/(365*365)的水平。这样的题目在中国现在绝对不是中学生难题了。舞台上有许多人都曾经指出老马在简单科学知识上的错误--大多数时连错误都算不上。我看到平正教授说老马,老马还在强辩,真是个不识好歹的家伙,朽木不可雕也。如果马悲鸣可以算作是理工科代表的话,这里的理工科背景的人最好说自己是学唱戏的,谁也丢不起那人啊。
但是架不住YOKE喜欢。
想起以前看到老马曾吹嘘说,卡诺如何了得。如果老马连这样简单的概率问题都算不清楚,说他懂得卡诺理论,一定是马悲鸣WAY,其方式和科学大约在第负35世纪相交。那他以后对于原子结构出发解释第二定律的玻尔兹曼就更不可能了解了,那是个把概率引入物理的最著名的动力学方程之一(应该是第一个,如果我没有记错的话),比量子力学早好多年呢。老马最好也别吹嘘自己对于哥本哈根和爱因斯坦争论的了解,回家补习高中数学要紧。我劝他老人家两句:看不懂的东西,就别看;想不明白的,就别想;没啥可害臊的。科学这堆事儿,不比老马坐在那儿意识流里把武则天嫁给宋太祖,康熙爷原来是秦始皇的外甥这么容易。老马不懂老方的书,和YANKEE一样,除了老马和YANKEE太笨以外,想找出不同于这个理由的说法就是更笨。我也不知道这个中国人民大学的理科生是个什么质量,老马是怎么毕的业,总不能考考3+2=5就拉倒吧?那学校不是要分挺高的吗?人大对老马不薄啊,好歹把你老人家当瘟神请走了,睁眼闭眼就是他了,你干吗这么照死了往母校脸上抹黑呢?
再来说YOKE。马悲鸣在美国刷瓶子,虽然物尽其用,但因此没时间更新知识,他不懂,你YOKE是职业数学家,应该知道是怎么回事。即便说你不是学物理的,GOOGLE总会吧?你那个结论是怎么得出的?可见还是恨老方。
难听的我们互相之间说得够多了,不再重复了。我把方励之自1989年发表的学术论文放在底下。
你要是不懂物理,找你们学校的物理系的教授问一问。如果你不好意思,就找一个你们那里的大牌儿研究天体物理的教授的名字,然后也GOOGLE一下,注意一下杂志的名称。看一看,方励之的学术水平是不是只有大学学报的水平。看来你对一般大学学报的水平有研究,这是一个优点,让我们对熟能生巧有了见识。我看老方对学报的水平的了解肯定不如你,我觉得他应该不看大学学报,也许科大学报除外。
这里如果有人学习过天体物理--其实只要学过物理,看一看底下这个LIST,会对方励之的学术水平有一个中肯的评价。请注意89年的文章。那一定是他在北京天文台工作时作出来的。
老方曾经被四中的老教师认为从教以来见过的最聪明的学生(不是之一),这是一个四中的晚辈亲口对我说的。那时是校庆,老教师回校后和他们闲谈时说的。前些天有文章介绍老方在北大是个超级优秀学生,所有课程都是满分(我真的很难很难相信,但全A是可能的)。北大不是克莱顿大学,曾经的北大物理系吃人不吐骨头。七七级一次考试从早上到下午,自己打饭回头再考,老师懒得监考。我知道57,58级的数理学生,有些课程,不仅要笔试,还有口试,说起来口试更让许多人心惊胆战。老北大,没有那么容易混。YOKE以为像后来习近平那样想要博士就博士吗?
因此他的才华是无庸置疑的。但当我看到底下这个LIST,才知道他的努力也是无庸置疑的,甚至更令人吃惊。面对这样一个LIST,任何一个做过一点研究的人,即便不是物理专业的,也应该知道它的份量。
他走后,学部有意思要把原来科大的第二把刀补上来做院士,那人不干,说老方只要还在,即便他在国外,这个位子我绝对不要。很多年后,大约是老同事之间达成了谅解(方励之可没这么小气),那人才接受了院士提名,并被选作院士。
但是仇恨的力量总要比学术力量强大得多,于是我们看到了马悲鸣,YOKE。后者的特征是:
曾经说过毛泽东的坏话,但看到阶级斗争的形势后,改为歌颂毛泽东。
和毛左不一样的是,并不妨碍他歌颂邓小平,江泽民。
一直和刘浩峰很好,但刘浩峰一抱怨我党,那怕是很轻微地,YOKE就不假言色了。
当刘浩峰又回到革命路线上来了,YOKE立刻予以支持。
薄起来事情刚出来,他说要百花齐放才好。
GOON中央变调严厉后,他就跟得很紧,弯子转得快得让老王不齿。
在海外,我从来没有看到另外一个人把党性约束得这样严格。这样坚定的思想上的布尔什维克如果不是像YOKE自己说的凤毛麟角,干脆这个词可以取消了。不过我有功夫看他的文章实在是出于心理上的好奇,一样米养百样人,岁数大了,就各色人等都见过了,真是个人物。指望他讲理,羊都上树了。
说回来,老方命不好,年青时候赶上了一个十足的黑暗年代,好日子被黑暗蹉跎掉了许多。即便如此,我从未听说老方抱怨过,多是别人替他抱怨。他的学术成就也不是像马,Y这样的十足小人可以有资格评价的,一个不懂装懂,一个懂装不懂。都是出于仇恨,于学术评价是毫不相干的。
我还有一份朋友转给我的别人(一位数学家,无疑比YOKE牛得多)回忆老方学术的EMAIL,但我不愿意伤人,不出示了,除非网上可以公开看到。我从来没有怀疑过老方的学术能力,所以没有查询过他的论文发表,赶上了,就去找,这其实是一件很简单的事。YOKE肯定会。马悲鸣会不会,是个问题,YOKE不妨教教他欣赏的这位理科生。对了,顺便教教他怎么算同生日的概率,不要自己以为容易的事,老马就一定会学得轻松。让他别给你吹嘘的不得了的理科生丢脸,引用人家的文章了,互为师生,报答一下吧。
据说培根十分博学,但人品很坏。我们今天仍旧不时地重复他说过的。我们欣赏他的智慧和深邃。
据说拉普拉斯人品很坏,但他的数学造诣当时一流。搞数理的不可能不知道他的名字。
斯塔克是纳粹分子,但他名字命名的效应写进物理教科书。
杨振宁除了物理几乎一无是处,但他物理确实很好。否认这点只说明你笨得找不到咬他的地方了。
钱学森回国以后学术上的贡献在亩产万斤上十分新颖,但他以前在学术上确曾才华横溢,并无虚华过。
这些事实是如此简单,你即便不知道学术,可以问,可以查。正常的人大多有这个胸怀,应该有这个胸怀。
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Scientific Articles of Li-Zhi Fang (Fang Lizhi) Since 1989
1989
Cosmological implications of quasar-galaxy associations, L.Z.Fang, Y.Q.Chu and X.F. Zhu, Mod. Phys. Lett., 4, 887.
Geometrical optics in an inhomogeneous universe, L.Z.Fang and X.P.Wu, Chinese Phys. Lett., 6, 233.
Quasar clustering and its cosmological implication, L.Z.Fang, Inter. J. Mod. Phys. A4, 3477.
L'Osservatorio astronomico di Pechino: la sua storia, il presente, L.Z.Fang, Scienza e Tecnica, Annuario della EST 88/89 404.
Overview on the frontier of high energy astrophysics, L.Z.Fang, Modern Physics, No.1, 5, No.2, 10.
Cosmic vacuum fluctuations, cosmic strings and the origin of inhomogeneity in the universe, L.Z.Fang, Physics, 18, 80.
Non-topological solitons and structure formation in the universe, L.Z. Fang, Proceedings of the Fifth Marcel Grossmann Meeting on General Relativity, eds. D.G. Blair and M.J. Buckingham, World Scientific.
Cosmic string and the distribution of quasar absorption lines, L.Z.Fang, Y.Q.Chu and X.F.Zhu, Large Scale Structure and Motions in the Universe, eds. M.Mezzetti, Kluwer Academic Publishers.
1990
Biased clustering in a universe with hot dark matter and a cosmic string, L.Z.Fang, S.P.Xiang and L.Yan, Astr. & Astrophys. 233, 1.
Periodicity of redshift distribution in a T-3 universe, L.Z.Fang, Astr. & Astrophys. 239, 24.
An upper limit to quasar's peculiar velocity, L.Z.Fang, Y.Q.Chu, X.F.Zhu and L.F. Wang, Inter. J. Mod. Phys., 5, 2993.
Quasar pair and quasar's peculiar velocity, L.Z.Fang, Developments in general relativity, astrophysics and quantum theory, eds. F.Cooperstock, L.P.Horwitz and J.Rosen.
Quasar clustering and its implication on structure formation, L.Z. Fang, Particle Physics and Cosmology, eds. L.Z.Fang and A.Zee, Gorden Breach
Luminosity inhomogeneity of quasars and the upper limit of the density fluctuation in the universe, Y.Q. Chu and L.Z. Fang, IAU 139th Symposium: The galactic and extragalactic background radiation. Proceedings of the 139th. eds. S. Bowyer and C. Leinert, Kluwer Academic Publishers, 418.
1991
Larger-scale structure in the Lyman-alpha forest, L.Z.Fang, Astr. & Astrophys. 244, 1.
A historical supernova's lower limit to the galactic stellar collapse rate, L.Z.Fang, J.S.Huang and Jean-Marc Bonnet-Bidaud, Astrophys. & Sp. Sci. 184, 221.
Absorption cross section of a mini black hole, L.Z.Fang, Quantum Mechanics in Curved Space-Time, eds. J.Audretsch and V. de Sabbata, Plenum, New York.
Large scale structure in the Lyman-alpha absorption lines, L.Z.Fang, Gravitation and Modern Cosmology, eds. A.Zichichi, V. de Sabbata and N.Sanchez, Plenum, New York.
A possible way to determine deceleration parameter , H.J.Mo, X.Y.Xia, Z.G.Deng, G.Börner and L.Z.Fang, Bulletin of the A.A.S., 23, 1342.
1992
From fairall 9 to high-z objects: pattern of change in ionization structure, W.Zheng, L.Z.Fang and L.Binette, Astrophys. J., 392, 74.
Characteristic scales in the distribution of quasar absorption line systems, H.J. Mo, X.Y. Xia, Z.G. Deng, G. Börner and L.Z. Fang, Astr. & Astrophys., 256, L23.
The role of UV bump in line emission, W.Zheng and L.Z.Fang, in Testing the AGN Paradigm, eds. S.Holt, S.Neff and C.Meganurry, Am. Ins. Phys.
Topology of the universe: an Overview, L.Z.Fang, Current Topics in Astrofundamental Physics, eds. N.Sanchez & A.Zichichi, World Scientific, Singapore.
1993
Anisotropy of cosmic background radiation from a spherical clustering on large scales, L.Z. Fang and X.P. Wu, Astrophys. J., 408, 25
Quasar clustering on large scales, H.J.Mo and L.Z.Fang, Astrophys. J., 410, 493
The cluster-cluster correlation in hybrid models, Y.P.Jing, H.J.Mo, G.Börner and L.Z.Fang, Astrophys. J., 411, 450
Linear evolution of cosmic baryonic medium on large scales, L.Z.Fang, H.G. Bi, S.P. Xiang and G.Börner, Astrophys. J., 413, 477
Size of multiply connected universe and cosmic background radiation, L.Z.Fang, Mod. Phys. Lett., A8, 2615
Global topology of the universe, L.Z.Fang, Relativistic Gravitational Experiments in Space, eds. M.Demianski & C.W.F.Everitt, World Scientific, Singapore.
1994
Stochastic fluctuations and structure formation in the universe, A.Berera and L.Z.Fang, Phys. Rev. Lett., 72, 458
Anisotropies of cosmic background radiation from local collapse, S.P.Wu and L.Z.Fang, Astrophys. J., 424, 530
The large-scale structure in a universe dominated by cold plus hot dark matter, Y.P. Jing, H.J.Mo, G.Börner and L.Z.Fang, Astr. & Astrophys., 284, 703
Typical scales in the spatial distribution of QSOs, Z.G.Deng, X.Y.Xia and L.Z.Fang, Astrophys. J., 431, 506
Abundance of moderate-redshift clusters in the cold plus hot dark matter model, Y.P.Jing and L.Z.Fang, Astrophys. J., 432, 438
An Infrared cutoff revealed by the two years of COBE observations of cosmic temperature fluctuations, Y.P.Jing and L.Z.Fang, Phys. Rev. Lett., 73, 1882
Anisotropies of cosmic background radiation from peculiar velocity field, X.P.Wu and L.Z.Fang, Cosmic Velocity Field, eds. F.R.Bouchet and M.Lacheze-Rey (Editions Frontiere), 597.
Quasar clustering and structure formation in the universe, L.Z.Fang, Proceedings of the 4th MPG-CAS Workshop on High Energy Astrophysics and Cosmology, eds. G.Börner and T.Buchert
Typical scales in the large-scale structure of the universe, Z.G.Deng, G.Börner, H.J.Mo, X.Y.Xia and L.Z.Fang, Proceedings of the 4th MPG-CAS Workshop on High Energy Astrophysics and Cosmology, eds. G.Börner and T.Buchert
The Beijing-Arizona-Taipei-Connecticut (BATC) Color Sky Survey, D. Burstein, J.J. Hester, R.A.Windhorst, Y.Li, L.Clampitt, L.Z.Fang, J.S.Chen, J.Zhu, Z.J.Jiang, X.H.Fan, H. Wu, H. Yan, Z.Zhen, X.Zhou, H.J.Su, F.Z. Chen, Z.G. Deng, W.H.Sun, W.P.Chen, P.Lu Bulletin of AAS, 26, 1372
1995
FeII and FeI emission in IRAS 07598+6508 and PHL 1092, J. Kwan, F.Z. Cheng, L.Z.Fang, W.Zheng and J.Ge, Astrophys. J., 440, 628
Thermally induced density perturbations in the inflation era, A.Berera and L.Z.Fang, Phys. Rev. Lett., 74, 1912
On the measurement of the Hubble constant in a local low-density universe, X.P.Wu, Z.G.Deng, Z.L.Zou, L.Z.Fang and B.Qin, Astrophys. J. Lett., 448, L65
A simulation of Ly absorption forests in liner approximation of cold and cold plus hot dark matter models, H.G.Bi, J.Ge and L.Z.Fang, Astrophys. J., 452, 90
Substructures and density profiles of clusters in models of galaxy formation, Y.P.Jing, H.J.Mo, G. Börner and L.Z.Fang, Mon. Not. R. Astr. Soc., 274, 417
Typical scales in the clustering of the Universe, L.Z.Fang, Z.G.Deng and X.Y.Xia, Int. J. Mod. Phys., D4, 417
Substructures of clusters and cosmological models, Y.P. Jing, H.J. Mo, G. Börner and L.Z. Fang, Large Scale Structure in the Universe, eds. J.P.Mücket, S.Gottlöber and V.Müller, World Scientific, Singapore
Jeans-type instability of the reheated IGM, H.G. Bi, G. Börner, L.Z. Fang and Q.B. Li, QSO Absorption Lines, Proceedings of the ESO Workshop Held at Garching, Germany, 21 - 24 November 1994, ed. G. Meylan. Springer-Verlag Berlin Heidelberg New York, 447.
1996
A wavelet space-scale-decomposition analysis of structures and evolution of QSO's Ly absorption lines, J.Pando and L.Z. Fang, Astrophys. J. 459, 1
Quasar-cluster associations and gravitational lensing by large-scale matter clumps, X.P. Wu and L.Z. Fang, Astrophys. J. Lett. 461, 5
Abundance and clustering of C IV absorption systems in the SCDM, LCDM and CHDM models, H.G. Bi and L.Z. Fang, Astrophys. J. 466, 614
Comparisons of cluster mass determinations by X-ray observations and gravitational Lensing, X.P. Wu and L.Z. Fang, Astrophys. J. Lett. 467, 45
Deep, Wide-field spectrophotometry of the open cluster M67, X. Fan, D. Burstein, J.S. Chen, J.Z. Zhao, J. Jiang, H. Wu, H.J. Yan, Z.Y. Zheng, Y. Li, X. Zhou, L.Z. Fang, F.Z. Chen, Z.G. Deng, Y.Q. Chu, J.J. Hester, R.A. Windhorst, P. Lu, W.H. Sun, W.P. Chen, W.S. Tsay, T.H. Chiueh and T.C. Lin, Astro. J. 112, 628
On the possible variations of the Hubble constant with distance, X.P. Wu, B. Qin and L.Z. Fang, Astrophys. J. 469, 48
Environmental effect on the associations of background quasars with foreground objects: I. analytic investigation, X.P. Wu, L.Z. Fang, Z.H. Zhu and B. Qin, Astrophys. J. 471, 575
Density Fluctuations on Super-Hubble Scales, L.Z. Fang and Y.P. Jing, Mod. Phys. Lett. A11, 1531
Stochastic fluctuations in the primeval plasma of the universe, L.Z.Fang, Z.Huang and X.P.Wu, Int. J. of Mod. Phys, D5, 495
Exact (3+1) dimensional soliton solution of Einstein equation, C.Au, L.Z.Fang and F.T.To, in Proceedings of the 7th Marcel Grossmann Meeting on General Relativity, eds. R.T. Jantzen and G.Mac Keiser, World Scientific, Singapore, 289
Infrared cutoff in initial density perturbations and cosmic temperature fluctuations, L.Z. Fang and Y.P. Jing, in Proceedings of the 7th Marcel Grossmann Meeting on General Relativity, eds. R.T. Jantzen and G.Mac Keiser, World Scientific, Singapore, 1104
Density fluctuations on super-Hubble scales, L.Z. Fang and Y.P. Jing, Astrophys. & Space Science, 244, 73, Modern Mathematical Models of Time and their Applications to Physics and Cosmology, eds. W.G. Tifft and W.J. Cocke, Kluwer.
1997
A statistical comparison of cluster mass estimates from optical/X-ray observations and gravitational lensing, X.P. Wu and L.Z.Fang, Astrophys. J. 483, 62
Environmental effect on the associations of background quasars with foreground objects: II. numerical simulations, X.P.Wu, X.H.Zhu, Y.P.Jing and L.Z.Fang, Astrophys. J., 488, 557
Abundance and clustering of QSOs in cosmic Structure formation models, H.G. Bi and L.Z. Fang, Astr. & Astrophys., 325, 433
Quasar-galaxy associations from gravitational lensing: revisited, Z.H.Zhu, X.P.Wu and L.Z.Fang, Astrophys. J., 490, 31
Multiband photometry of selected areas in a study of galactic structure, P.K.Lu, W.S.Tsay, A.B.C.Chen, R.Chen, D. Burstein, J.J. Hester, R.A. Windhorst, L.Z. Fang, W.H. Sun, Y,I. Byan, W.P. Chen, T.H. Chiueh, H.J. Kuo, J.S. Chen, J. Zhu, L.C. Deng, X.H. Fan, Z.J. Jiang, Y. Li, H. Wu, M. Zhang, Z.Y. Zheng, X. Zhou, F.Z.Chen, Z.G. Deng, Y.Q. Chu H.J. Su, Z.H. Shang, H.J. Yan, X.Y. Xia, Baltic Astronomy, 7, 33
Large-scale structures revealed by wavelet decomposition, L.Z.Fang and J.Pando, The 5th Current Topics of Astrofundamental Physics, eds. N.Sanchez and A.Zichichi, World Scientific, Singapore, 616
Density perturbations of thermal origin during inflation, W.L. Lee and L.Z. Fang, Int. J. of Mod. Phys, D6, 305
1998
Probing hierarchical clustering by scale-scale correlations of wavelet coefficients, J. Pando, P. Lipa, M. Greiner and L.Z.Fang, Astrophys. J. 496, 9
An attempt to determine the largest scale of primordial density perturbations in the universe, A. Berera, L.Z. Fang and G. Hinshaw, Phys. Rev. D57, 2207
The collapse of neutron stars in high-mass binaries as the energy source for the gamma-ray bursts, B. Qin, X.P. Wu, M.C. Chu, L.Z. Fang and J.Y. Hu, Astrophys. J. Lett. 494, L57
The discrete wavelet transform power spectrum estimator, J.Pando and L.Z. Fang, Phys. Rev. E57, 3593
Steps toward determination of the size and structure of the broad-line region in active galactic nuclei, XII ground-based monitoring of 3C390.3, M.Dietrich, B.M.Peterson, P. Albrecht, M. Altmann, A.J. Barth, P.J.Bennie, R. Bertram, N.G.Bochkarev, H. Bock, J.M.Braun, A.Burenkov, S.Collier, L.Z. Fang, O.P.Francis, A.V. Filippenko, C.B. Foltz, W. Gässler, C.M. Gaskell, M. Geffert, K.K. Ghosh, R.W. Hilditch, R.K. Honeycutt, K. Horne, J.P. Huchra, S.Kaspi, M. Kümmel, K.M. Leighly, D.C. Leonard, Yu.F. Malkov, D. Maoz, V. Mikhailov, H.R. Miller, A.C. Morrill, H. Netzer, J. Noble, P.T. O'Brien, T.D. Oswalt, S.P. Pebley, M. Pfeiffer, V.I. Pronik, B.C. Qian, J.W. Robertson, A. Robinson, K.S. Rumstay, J. Schmoll, S.G. Sergeev, E.A. Sergeeva, A.I. Shapovalova, D.R. Skillman, S.A. Snedden, G.M. Stirpe, J.Tao, G.W. Turner, R.M.Wagner, S.J. Wagner, B.J.Wilkes, H.Wu, W.Zheng and Z.L. Zou, Astrophys. J. Supp. 115, 185
A possible bias model for quasars, L.Z. Fang and Y.P. Jing, Astrophys. J. Lett. 502, 95
Ly/H ratio of singly ionized helium in quasars, W. Zheng and L.Z. Fang, Astrophys. J. 505, 519
Detecting scale-dependence of bias from APM-BGC galaxies, L.Z. Fang, Z.G. Deng and X.Y. Xia, Astrophys. J. 506, 53
Scale invariance of rich cluster abundance: a possible test for models of structure formation, W.Xu, L.Z.Fang and X.P.Wu, Astrophys. J. 508, 472
Evidence for scale-scale correlations in the cosmic microwave background radiation, J.Pando, D. Valls-Gabaud and L.Z. Fang, Phys. Rev. Lett., 81, 4568
Updating the relationship for galaxy clusters, X.P. Wu, L.Z. Fang and W. Xu, Astr. & Astrophys., 338, 813
Detecting the non-Gaussian spectrum of QSO's Ly absorption line distribution, J. Pando and L.Z. Fang, Astr. & Astrophys., 340, 335
A comparison of different cluster mass estimates: consistency or discrepancy? X.P. Wu, T.H. Chiueh, L.Z. Fang and Y.J. Xue, Mon. Not. R. Astr. Soc., 301, 861
Fractal of large scale structures in the universe, L.Z.Fang, in Nonlinear Physics for Beginner, ed. Lui Lam, World Scientific, Singapore, 58
Searching for three numbers 1970-1997: an overview of big bang cosmology, L.Z. Fang, in Cosmic Microwave Background and Large Scale Structure of the Universe, Vol. 151 of Astronomical of the Pacific Conference Series, eds. Y.I Byun and K.W. Ng, 3.
Testing structure formation models by space-scale-decomposition, L.Z.Fang, in Cosmic Microwave Background and Large Scale Structure of the Universe, Vol. 151 of Astronomical of the Pacific Conference Series, eds. Y.I Byun and K.W. Ng, 42
Scale-dependence of bias from APM-BGC galaxies, L.Z.Fang, Z.G.Deng and X.Y.Xia, Cosmological Parameters and the Evolution of the Universe: Proceedings of IAU Symposium 183, ed. K. Sato, Kluwer, Dordrecht, 271
Fundamental cosmological parameters and large scale structures of the universe, L.Z. Fang, in Gravitation and Cosmology Proceedings of the Pacific Conference, eds. C.Y.Cho, C.H.Lee & S.W. Kim, World Scientific, Singapore, 142
Cosmology with high redshift ``objects" on large scales, L.Z.Fang, in Black Holes and High Energy Astrophysics, eds. H. Sato & N. Sugiyama, Universal Academy Press, Tokyo, 31
1999
Mass density perturbations from inflation with thermal dissipation, L.W. Lee and L.Z. Fang, Phys. Rev., D59, 083503
Deep intermediate band surface photometry of NGC 5907, Z.Y. Zheng, Z.H. Shang, H.J. Su, D. Burstein, J.S. Chen, Z.G. Deng, Y.I. Byun, R. Chen, W.P. Chen, L.C. Deng, X.H. Fan, L.Z. Fang J.J. Hester, Z.J. Jiang, Y. Li, W.P. Lin, W.H. Sun, W.S. Tsay R. A. Windhorst, H. Wu, X.Y. Xia, W. Xu, S.J. Xue, H.J. Yan, Z. Zheng, X. Zhou, J. Zhu, Z.L. Zou, Astro. J., 117, 2757
The - and - relationships for galaxy clusters: revisited, X.P. Wu, Y.J. Xue, and L.Z. Fang, Astrophys. J. 524, 22
Abundances and correlations of structures beyond galaxy clusters, W. Xu, L.Z. Fang and Z.G. Deng, Astrophys. J. 524, 1
Cosmological constraints on the host halos of GRBs, W. Xu and L.Z. Fang, Astrophys. J. Lett. 519, 105
The flatness of mass-to-light ratio on large scales, L.Z. Fang and W. Xu Astrophys. J. Lett. 522, L85
The origin of scale-scale correlations of the density perturbations during inflation, L.Z. Fang, W.L. Lee and J. Pando, Int. J. of Mod. Phys, D8, 731
An introduction of the wavelet transform, J. Pando and L.Z. Fang, in Wavelet in Physics, eds. L.Z. Fang and R. Thews, World Scientific, Singapore, 15
The discrete wavelet transform in cosmology: power spectrum and multiscale identification, L.Z. Fang and J. Pando, in Wavelet in Physics, eds. L.Z. Fang and R. Thews, World Scientific, Singapore, 133
The discrete wavelet transform in cosmology: quasilinear and non-linear evolutions, L.Z. Fang and J. Pando, in Wavelet in Physics, eds. L.Z. Fang and R. Thews, World Scientific, Singapore, 167
Scale-dependence of bias from APM-BGC sample, L.Z. Fang, Z.G. Deng and X.Y. Xia, IAU 183rd symposium: Cosmological Parameters and the Evolution of the Universe, ed. K. Sato, 271.
2000
Breaking degeneracy of dark matter models by the scale-scale correlations of galaxies, L.L. Feng, Z.G. Deng and L.Z. Fang, Astrophys. J., 530, 53
Virialization of galaxy clusters and beyond, W. Xu, L.Z. Fang and X.P. Wu, Astrophys. J., 532, 728
Non-Gaussianity and the recovery of the mass power spectrum from the Ly forest, L.L. Feng and L.Z. Fang, Astrophys. J., 535, 519
Measuring the galaxy power spectrum and scale-scale correlations with multiresolution-decomposed covariance - I. method, L.Z. Fang and L.L. Feng Astrophys. J. 539, 5
Intermittent behavior of cosmic mass field revealed by QSO's Ly forests, P. Jamkhedkar, H. Zhan and L.Z. Fang, Astrophys. J. Lett., 543, L1
Calibration of the BATC Survey: Methodology and Accuracy, H.J. Yan, D. Burstein, X.H. Fan, Z.Y.Zheng, J.S. Chen, Y.I. Byun, R. Chen, W.P. Chen, L.C. Deng, L.Z. Fang, J.J. Hester, Z.J. Jiang, Y. Li, W.P. Lin, P. Lu, Z.H. Shang, W.H. Sun, W.S. Tsay, R. A. Windhorst, H. Wu, X.Y. Xia, W. Xu, S.J. Xue, Z. Zheng, J. Zhu, Z.L. Zou, Pub. Astr. Soc. Pacific, 112, 691
Massive dark halos, quasars and gamma ray bursts, L.Z. Fang, Il Nuovo Cimento, B115, 947
A relativistic calculation of super-Hubble suppression of inflation with thermal dissipation, W.L. Lee and L.Z. Fang, Class. Quantum Grav., 17, 4467
Structure formation on scales of galaxy clusters and beyond, L.Z. Fang, in The Chaotic Universe, eds. V.G. Gurzadyan and R. Ruffini, World Scientific, Singapore, 16
Searching for scale-scale correlations of cosmic temperature fluctuations, L.Z. Fang, in The Chaotic Universe, eds. V.G. Gurzadyan and R. Ruffini, World Scientific, Singapore, 211
The evolution of massive dark halos and their tracers, L.Z. Fang, in The Future of the Universe and the Future of our Civilization, eds. V Burdyuzha and G Khozin, World Scientific, Singapore, 109
2001
Measuring the galaxy power spectrum with multiresolution decomposition - II. diagonal and off-diagonal power spectra of the LCRS galaxies, X.H. Yang, L.L. Feng, Y.Q. Chu and L.Z. Fang, Astrophys. J., 553, 1
Quasi-local evolution of cosmic gravitational clustering in weakly non-linear regime, J. Pando, L.L. Feng and L.Z. Fang, Astrophys. J., 554, 841.
The local power spectrum and correlation hierarchy of the cosmic mass field, H. Zhan, P. Jamkhedkar and L.Z. Fang, Astrophys. J., 555, 58.
The intermittent behavior and hierarchical clustering of the cosmic mass field, L.L. Feng, J. Pando, and L.Z. Fang Astrophys. J., 555, 74.
Measuring the galaxy power spectrum with multiresolution decomposition - III. velocity field analysis, X.H. Yang, L.L. Feng, Y.Q. Chu and L.Z. Fang, Astrophys. J., 560, 549.
On the normalization of the QSO's Ly forest power spectrum, P. Jamkhedkar, H.G. Bi and L.Z. Fang, Astrophys. J., 561, 94.
Time-dependent correlation of primordial cosmic perturbations in the inflationary cosmology, W.L. Lee and L.Z. Fang, Europhysics Letters, 56, 904.
Structure formation of galaxy clusters and beyond, L.Z.Fang, Current Topics in Astrofundamental Physics: The Cosmic Microwave Background, eds. N.Sanchez and A.Zichichi, Plenum, 291.
Large scale bulk velocity measured from Ly forests, L.Z. Fang, Proceedings of the 6th Sino-german workshop on astrophysics, Ringberg Castle, eds. G. Börner and H. Spruit (MPA Publications)
2002
The large-scale bulk velocity estimated from QSOs' Ly forests, H. Zhan and L.Z. Fang, Astrophys. J., 566, 9.
Measuring the galaxy power spectrum with multiresolution decomposition - IV. redshift distortion, X.H. Yang, L.L. Feng, Y.Q. Chu and L.Z. Fang, Astrophys. J., 566, 630.
Constraints on primordial black holes and primordial density perturbations from the epoch of reionization, P. He and L.Z. Fang Astrophys. J. Lett., 568, L1.
Non-Gaussian features of transmitted flux of QSO's Ly absorption: intermittent exponent, J. Pando, L.L. Feng, P. Jamkhedkar, W. Zheng, D. Kirkman, D. Tytler and L.Z. Fang, Astrophys. J., 574, 575
Intermediate-band surface photometry of the edge-on galaxy: NGC 4565, H. Wu, D. Burstein, Z.G. Deng, X. Zhou, Z.H. Shang, Z.Y. Zheng, J.S. Chen, H.J. Su, R.A. Windhorst, W.P. Chen, Z.L. Zou, X.Y. Xia, Z.J. Jiang, J. Ma, S.J. Xue, J. Zhu, F.Z. Cheng, Y.I. Byun, R. Chen, L.C. Deng, X.H. Fan, L.Z. Fang, X. Kong, Y. Li, W.P. Lin, P. Lu, W.H. Sun, W.S. Tsay, W. Xu, H.J. Yan, and Z. Zheng, Astro. J., 123, 1364
The intermittency of cosmic mass field, L.Z. Fang, Proceedings of the Ninth Marcel Grossmann Meeting on General Relativity, eds. R.T. Jantzen, V. Gurzadyan and R. Ruffini, World Scientific, Singapore, 2045
Measuring the galaxy power spectrum with multiresolution decomposition, Y.Q. Chu, X.H. Yang, L.L. Feng and L.Z. Fang, Statistical Challenges in Modern Astronomy III, eds. E. Feigelson and G. Babu, Springer-Verlag,
2003
One-point statistics of the cosmic density field in real and redshift spaces with a multiresolutional decomposition, H. Zhan and L.Z. Fang, Astrophys. J., 585, 12
Intermittent features of the QSO Ly transmitted flux: results from hydrodynamic cosmological simulations, L. L. Feng, J. Pando, and L. Z. Fang, Astrophys. J., 587, 487
Power spectrum and intermittency of the transmitted flux of QSOs' Ly absorption spectra, P. Jamkhedkar, L. L. Feng, W. Zheng, D. Kirkman, D. Tytler, L. Z. Fang Mon. Not. R. Astr. Soc., 343, 1110
The multiphase intracluster medium in galaxy groups probed by Ly forests, H. Zhan, L. Z. Fang and D. Burstein, Astrophys. J. Lett., 592, L1
Hydrogen clouds before reionization: a lognormal model approach, H.G. Bi, L.Z. Fang, L.L. Feng and Y.P. Jing, Astrophys. J., 598, 1
Measuring the galaxy power spectrum with multiresolution decomposition, Y.Q. Chu, X.H. Yang, L.L. Feng and L.Z. Fang, Statistical Challenges in Modern Astronomy III, eds. E. D. Feigelson and G. J. Babu, Springer-Verlag. p.401
Intermittency and large-scale structure in the universe: a new window for the study of the nonlinear regime of structure formation, P. Jamkhedkar and L.Z. Fang, The Emergence of Cosmic Structure: 13th Astrophysics Conference. AIP Conference Proceedings, Vol. 666, p. 187.
Quasi-locality of the gravitational evolution of cosmic mass field, L.Z. Fang, Novuo Cimento, 118B, 989
2004
Quasi-local evolution of the cosmic gravitational clustering in halo model, L.L. Feng and L.Z. Fang, Astrophys. J., 601, 54.
Correlated hybrid fluctuations from inflation with thermal dissipation, W.L. Lee and L.Z. Fang, Phys. Rev., D69, 023514.
The reionization history in the lognormal model, J. Liu, L.Z. Fang, L.L. Feng and H.G. Bi, Astrophys. J., 605, 591.
Off-equilibrium dynamics of the primordial perturbations in the inflationary universe: the O(N) model, W. L. Lee, Y. Y. Charng, D.S. Lee and L.Z. Fang, Phys. Rev., D69, 123522.
Spatial locality of galaxy correlation function in phase space: samples from the 2MASS extended source catalog, Y. C. Guo, Y.Q. Chu and L.Z. Fang, Astrophys. J., 610, 51
Temperature and entropy fields of baryonic gas in the universe, P. He, L.L. Feng and L.Z. Fang, Astrophys. J., 612, 14
The statistical discrepancy between the IGM and dark matter fields: one-point statistics, J. Pando, L.L. Feng and L.Z. Fang, Astrophys. J. Supp., 154, 475
Statistical features of 21-cm emission from the epoch between reionization and Gunn-Peterson transparency, P. He, J. R. Liu, L. L. Feng, H. G. Bi, and L.Z. Fang, Astrophys. J., 614, 6
Correlated hybrid fluctuations from inflation with thermal dissipation, W.L. Lee and L.Z. Fang, Journal of the Korean Physical Society, 45, S198.
Running spectral index and mode-mode correlation of inflationary perturbations from off-equilibrium effects, D.S. Lee, L.Z. Fang, W.L. Lee and Y.Y. Charng, Journal of the Korean Physical Society, 45, S203
2005
Distributions of baryon fraction on large scales in the universe, P. He, L.L. Feng and L.Z. Fang, Astrophys. J., 623, 601
The velocity field of baryonic gas in the universe, B. Kim, P.He, J. Pando, L.L. Feng and L. Z. Fang, Astrophys. J., 625, 599
A parameter-free statistical measurement of halos with power spectra, P. He, L.L. Feng and L.Z. Fang, Astrophys. J., 628, 14
Power spectrum and intermittency of Lyman-alpha transmitted flux of QSO HE2347-4342, P. Jamkhedkar, L.L. Feng, W. Zheng and L.Z. Fang, Astrophys. J., 633, 52
Intergalactic medium in the LCDM universe from cosmological simulations, L.L. Feng, P. He, L.Z. Fang, C.W. Shu and M.P. Zhang, J. of Korean Astr. Soc., 38, 129
Long-tailed time-dependent correlation of primordial cosmic perturbations in the inflationary cosmology and its observable effects, L.Z. Fang, in Inquiring the Universe: Essays to celebrate Professor Mario Novellon jubilee, Frontier Groups, (ISBN 2914601085)
2006
Low-redshift cosmic baryon fluid on large scales and She-Levueque's universal scaling, P. He, J.R. Liu, L.L. Feng, C.W. Shu and L.Z. Fang, Phys. Rev. Lett., 96, 051302
X-ray emission of baryonic gas in the universe: luminosity-temperature relationship and soft band background, T.J. Zhang, J.R. Liu, L.L. Feng, P. He and L.Z. Fang, Astrophys. J., 642, 625
Cross-correlation between WMAP and 2MASS: non-Gaussianity induced by SZ effect, L. Cao, Y.Q. Chu and L.Z. Fang, Mon. Not. R. Astr. Soc., 369, 645
Is the cosmic UV background fluctuating at redshift larger than 6 ? J.R. Liu, H.G Bi, L.L. Feng and L.Z. Fang, Astrophys. J. Lett 645, L1
A unified fitting of HI and HeII Ly transmitted flux of QSO HE2347 with CDM hydrodynamic simulations, J.R. Liu, P. Jamkhedkar, W. Zheng, L.L. Feng, and L. Z. Fang, Astrophys. J., 645, 861
A WENO algorithm for the radiative transfer and ionized sphere at reionization, J.-M. Qiu, C.-W. Shu, L.-L. Feng and L. Z. Fang, New Astronomy, 12, 1
The history of reionization, L. Z. Fang, J. of Korean Phys. Soc., 49, 697
2007
A WENO algorithm of the temperature and ionization profiles around a point source, J.M. Qiu, L. L. Feng, C.W. Shu and L. Z. Fang, New Astronomy, 12, 398
Estimating power spectrum of Sunyaev-Zeldovich effect from the cross-correlation between WMAP and 2MASS, L. Cao, J.R. Liu, and L.Z. Fang, Astrophys. J., 661, 641
21 cm signals from early ionizing sources, J. R. Liu, J.M. Qiu, L. L. Feng, C. W. Shu and L.Z. Fang Astrophys. J., 663, 1
Ly-alpha Leaks in the Absorption Spectra of High Redshift QSOs, J.R. Liu, H.G. Bi and L. Z. Fang, Astrophys. J. Lett., 671, L89
The DWT power spectrum of the two-degree field galaxy redshift survey, Y.C. Cai, J. Pan, Y.H. Zhao, L.L. Feng and L.Z. Fang, Relativistic Astrophysics eds. C.L. Bianco and S.-S. Xue, the AIP Conference Proceedings, 966, 87
Twenty one cm signals from ionized and heated regions around first stars, L.Z. Fang, Relativistic Astrophysics eds. C.L. Bianco and S.-S. Xue, the AIP Conference Proceedings, 966, 95
2008
A WENO algorithm for the growth of ionized regions at the reionization epoch, J. M. Qiu, C.W. Shu, J.R. Liu ans L.Z. Fang, New Astronomy, 13, 1
Non-Gaussianity of the cosmic baryon fluid: log-Poisson hierarchy model, J.R. Liu and L. Z. Fang, Astrophys. J., 672, 11
Ly-alpha Leaks and Reionization, L.L. Feng, H.G. Bi, J.R. Liu and L.Z. Fang, Mon. Not. R. Astr. Soc., 383, 1459
DWT Analysis of the 2-degree Field Galaxy Redshift Survey, Y.-C. Cai, J. Pan, L.L. Feng and L.Z. Fang, ChJAA, 8, 159
Intermittency of cosmic baryon fluid, L.Z. Fang, Relativistic Astrophysics eds. D.S. Lee, W.L. Lee and S.-S. Xue, the AIP Conference Proceedings, 1059, 129
Book Review: History of Purple Mountain Observatory, L.Z. Fang, Isis (The History of Science Society), 99, 645
2009
Scaling relation between Sunyaev-Zel'dovich effect and X-ray luminosity and scale-free evolution of cosmic baryon field, Q. Yuan, H.Y. Wan, T.J. Zhang, J.R. Liu, L.L. Feng and L.Z. Fang, New Astronomy, 14, 152
Log-Poisson hierarchical clustering of cosmic neutral hydrogen and Ly-alpha transmitted flux of QSO absorption spectrum, Y. Lu, Y.Q. Chu, and L. Z. Fang, Astrophys. J. 691, 43
Time evolution of Wouthuysen-Field coupling, I. Roy, W. Xu, J.M. Qiu, C.W. Shu and L.Z. Fang, Astrophys. J. 694 1121.
A WENO algorithm for radiative transfer with resonant scattering and the Wouthuysen-Field Coupling, I. Roy, J.M. Qiu, C.W. Shu and L.Z. Fang, New Astronomy, 14, 513.
Wouthuysen-Field coupling in 21 cm region around high redshift sources, I. Roy, W. Xu, J.-M. Qiu, C.-W. Shu, and L. Z. Fang, Astrophys. J., 703, 1992
A wavelet-Galerkin algorithm of the E/B decomposition of CMB polarization maps, L. Cao and L. Z. Fang, Astrophys. J., 706, 1545
The zeroth Law of thermodynamics of photon-hydrogen system and 21 cm cosmology, L.Z. Fang, Int. J. of Mod. Phys. D, 18, 1943
2010
Vorticity of IGM velocity field on large scales, W. S. Zhu, L. L. Feng and L.Z. Fang, Astrophys. J., 712, 1
Resonant scattering and Ly radiation emergent from neutral hydrogen halos I. Roy, C.-W. Shu and L.Z. Fang, Astrophys. J., 716, 604
Log-Poisson non-Gaussianity of Ly transmitted flux fluctuations at high redshift, Y. Lu, W.S. Zhu, Y.Q. Chu, L.L.Feng, and L.Z. Fang Mon. Not. R. Astr. Soc., 408, 452
2011
Statistical and dynamical decoupling of the IGM from dark matter, L.Z. Fang and Weshan Zhu, Advances in Astronomy, 2011, Article ID 492980, 9 pages
Dynamical effect of the turbulence of IGM on the baryon fraction distribution, W. S. Zhu, L. L. Feng and L.Z. Fang, Mon. Not. R. Astr. Soc., 415, 1093
Intermittence of the map of kinetic Sunyaev-Zel'dovich effect and turbulence of IGM, W. Zhu, L. L. Feng, and L. Z. Fang, Astrophys. J. Lett,, 374, 14
Effect of dust on Lyman-alpha photon transfer in optically thick halo. Y. Yang, I, Roy, C-W. Shu and L. Z. Fang, Astrophys. J., 739, 91
Time-dependent behavior of Lyman photon transfer in high redshift optically thick medium, W. Xu, X.P. Wu, and L. Z. Fang, Mon. Not. R. Astr. Soc., 418, 853
2012
Nonlinear evolution of cosmic baryon fluid, L.Z. Fang, Int. J. of Mod. Phys. D, in press
作者:NABC60 在 驴鸣镇 发贴, 来自 http://www.hjclub.org |
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方励之89年以来发表记录:23年,180余篇,如果在生物地学专业,这是非常了不起的。师爷评论一下?
