◇◇新语丝(www.xys.org)(xys.dxiong.com)(xys1.dyndns.org)(xys888.dyndns.org)◇◇ 我看何吉欢廖世俊之争 方舟子办新语丝以净化学术环境,实为难能可贵。这不是他一个人的事,而是广 大学仁共同的事业。所以理应以实际行动支持之。 近读何-刘争端诸条,发现事乃起因于何-廖之争,只不过廖教授手腕高超,成功 导向另论,看来何副教授与长江教授是有差距啊。 到底何廖谁人造文章?不才不敢断言。在http://www.isiknowledge.com 查证了两位高手的相关论文及其引用情况,在下只将可查到的试列如下,以供诸 公鉴赏。也许两位更有佳作未被此系统收录,故不一定全面反映两位学问造诣。 只是,文章多也不见得就是“造”出来的,而文章少也不一定就表明严谨而学问高。 对比这些资料可见,以廖教授的长江教授,国家杰出青年基金获得者之尊,比起廖 说“从未获国家基金资助”的何副教授来说,有无觉得汗颜?若非如此,则更说明 廖教授有更多高明之处,只是不一定在文章之中了! 黄浦江 附: 何吉欢的论文 [1] He JH (0) Generalized variational principles for thermopiezoelectricity ARCH APPL MECH 72 (4-5): 248-256 JUL 2002 [2] He JH (0) A note on delta-perturbation expansion method APPL MATH MECH-ENGL 23 (6): 634-638 JUN 2002 [3] He JH (0) Smoothed particle technique for treatment shocks in transonic aerodynamics INT J TURBO JET ENG 18 (4): 243-249 2001 [4] He JH (0) A variational principle for magnetohydrodynamics with high Hartmann number flow INT J ENG SCI 40 (12): 1403-1410 JUL 2002 [5] He JH (0) Linearization and correction method for nonlinear problems APPL MATH MECH-ENGL 23 (3): 241-248 MAR 2002 [6] He JH (0) A variational model for a symmetric transonic aerofoil AIRCR ENG AEROSP TEC 74 (1): 9-11 2002 [7] He JH (0) A remark on Lagrange multiplier method (I) INT J NONLINEAR SCI 2 (2): 161-164 2001 [8] He JH (0) Bookkeeping parameter in perturbation methods INT J NONLINEAR SCI 2 (3): 257-264 2001 [9] He JH (0) Variational theory for linear magneto-electro-elasticity INT J NONLINEAR SCI 2 (4): 309-316 2001 [10] He JH (0) Modified Lindsted-Poincare methods for some strongly nonlinear oscillations Part III: Double series expansion INT J NONLINEAR SCI 2 (4): 317-320 2001 [11] He JH (0) Modified Lindstedt-Poincare methods for some strongly non-linear oscillations Part I: expansion of a constant INT J NONLINEAR MECH 37 (2): 309-314 MAR 2002 [12] He JH (0) Modified Lindstedt-Poincare methods for some strongly non-linear oscillations Part II: a new transformation INT J NONLINEAR MECH 37 (2): 315-320 MAR 2002 [13] He JH (0) A universal variational formulation for two dimensional fluid mechanics APPL MATH MECH-ENGL 22 (9): 989-996 SEP 2001 [14] He JH (0) Comments and author's reply on "Derivation and transformation of variational principles with emphasis on inverse and hybrid problems in fluid mechanics: a systematic approach" ACTA MECH 149 (1-4): 247-249 2001 [15] He JH (0) Hamilton principle and generalized variational principles of linear thermopiezoelectricity J APPL MECH-T ASME 68 (4): 666-667 JUL 2001 [16] He JH (1, Amiraliyev GM, Cakir M) Iteration perturbation method for strongly nonlinear oscillations J VIB CONTROL 7 (5): 631-642 JUL 2001 [17] He JH (1, Amiraliyev GM, Cakir M) A modified perturbation technique depending upon an artificial parameter MECCANICA 35 (4): 299-311 2000 [18] He JH (1,Mosconi M) Generalized Hellinger-Reissner principle J APPL MECH-T ASME 67 (2): 326-331 JUN 2000 [19] He JH (1,Mosconi M) Coupled variational principles of piezoelectricity INT J ENG SCI 39 (3): 323-341 FEB 2001 [20] He JH (1,Qin ZQ) Semi-inverse method and generalized variational principles with multi-variables in elasticity APPL MATH MECH-ENGL 21 (7): 797-808 JUL 2000 [21] He JH (0) A variational approach to electroelastic analysis of piezoelectric ceramics with surface electrodes MECH RES COMMUN 27 (4): 445-450 JUL-AUG 2000 [22] He JH (0) Exact resonances of nonlinear vibration of rotor-bearings system without small parameter MECH RES COMMUN 27 (4): 451-456 JUL-AUG 2000 [23] He JH (0) Variational iteration method for autonomous ordinary differential systems APPL MATH COMPUT 114 (2-3): 115-123 SEP 11 2000 [24] He JH (0) A variational model for compressible rotational blade-to- blade flow using Liu-type potential function INT J TURBO JET ENG 17 (2): 143-152 2000 [25] He JH (0) Modified straightforward expansion MECCANICA 34 (4): 287-289 OCT 1999 [26] He JH (0) Inverse problems of determining the unknown shape of oscillating airfoils in compressible 2D unsteady flow via variational technique AIRCR ENG AEROSP TEC 72 (1): 18-24 2000 [27] He JH (0) A new perturbation technique which is also valid for large parameters J SOUND VIB 229 (5): 1257-1263 FEB 3 2000 [28] He JH (1,Amiraliyev GM, Cakir M) Homotopy perturbation technique COMPUT METHOD APPL M 178 (3-4): 257-262 AUG 3 1999 [29] He JH (6, Amiraliyev GM, Cakir M; Marinca V; Ramachandra LS, Roy D; Kumar V, Sharma A, Chowdhury IR, et al.; Chen YZ, Lee KY; Roy D) A coupling method of a homotopy technique and a perturbation technique for non-linear problems INT J NONLINEAR MECH 35 (1): 37-43 JAN 2000 [30] He JH (0) Further study of the equivalent theorem of Hellinger-Reissner and Hu-Washizu variational principles APPL MATH MECH-ENGL 20 (5): 545-556 MAY 1999 [31] He JH (0) General Bernoulli equation for rotational flow in rotor INT J TURBO JET ENG 16 (1): 17-18 1999 [32] He JH (1,Wei BH, Wu KQ) Treatment shocks in transonic aerodynamics in the meshless method Part I: Lagrange multiplier approach INT J TURBO JET ENG 16 (1): 19-25 1999 [33] He JH (3,Amiraliyev GM, Cakir M; Marinca V; Wazwaz AM) Hybrid problems of determining unknown shape of bladings in compressible S2-flow in mixed-flow turbomachinery via variational technique AIRCR ENG AEROSP TEC 71 (2): 154-159 1999 [34] He JH (0) Variational iteration method - a kind of non-linear analytical technique: Some examples INT J NONLINEAR MECH 34 (4): 699-708 JUL 1999 [35] He JH (0) Generalized variational principles for 1-D unsteady viscous flow INT J TURBO JET ENG 15 (4): 253-258 1998 [36] He JH (0) Approximate analytical solution for seepage flow with fractional derivatives in porous media COMPUT METHOD APPL M 167 (1-2): 57-68 DEC 1 1998 [37] He JH (0) Approximate solution of nonlinear differential equations with convolution product nonlinearities COMPUT METHOD APPL M 167 (1-2): 69-73 DEC 1 1998 [38] He JH (1,Wei BH, Wu KQ) A family of variational principles for compressible rotational blade-to-blade flow using semi-inverse method INT J TURBO JET ENG 15 (2): 95-100 1998 [39] He JH (1,Wei BH, Wu KQ) Generalized variational principle for compressible S2-flow in mixed-flow turbomachinery using semi-inverse method INT J TURBO JET ENG 15 (2): 101-107 1998 [40] He JH (0) A variational theory for one-dimensional unsteady compressible flow - an image plane approach APPL MATH MODEL 22 (6): 395-403 JUN 1998 [41] Liu GL, He JH (0) New research and concepts in turbo-jet engine design AIRCR ENG AEROSP TEC 69 (6): 527-+ 1997 [42] He JH (3, Djurisic AB, Chan Y, Li EH; Djurisic AB, Chan Y, Li EH; Seo JC, Kim DH) A generalized variational principle for 3-D unsteady transonic rotational flow in rotor using Clebsch variables INT J TURBO JET ENG 14 (1): 17-21 1997 [43] He JH (2, Mosconi M; Wei BH, Wu KQ) Semi-inverse method of establishing generalized variational principles for fluid mechanics with emphasis on turbomachinery aerodynamics INT J TURBO JET ENG 14 (1): 23-28 1997 廖世俊的论文: [1] Liao SJ, Campo A (0) Analytic solutions of the temperature distribution in Blasius viscous flow problems J FLUID MECH 453: 411-425 FEB 25 2002 [2] Liao SJ (0) A direct boundary element approach for unsteady non-linear heat transfer problems ENG ANAL BOUND ELEM 26 (1): 55-59 JAN 2002 [3] Liao SJ (0) An analytic approximation of the drag coefficient for the viscous flow past a sphere INT J NONLINEAR MECH 37 (1): 1-18 JAN 2002 [4] Liao SJ, Mashayek F (0) A multigrid approach for steady state laminar viscous flows INT J NUMER METH FL 37 (1): 107-123 SEP 15 2001 [5] Liao SJ (0) A non-iterative numerical approach for two-dimensional viscous flow problems governed by the Falkner-Skan equation INT J NUMER METH FL 35 (5): 495-518 MAR 15 2001 [6] Liao SJ (0) The general boundary element method and its further generalizations INT J NUMER METH FL 31 (3): 627-655 OCT 15 1999 [7] Liao SJ (0) A simple approach of enlarging convergence regions of perturbation approximations NONLINEAR DYNAM 19 (2): 93-110 JUN 1999 [8] Liao SJ (1,He JH) A uniformly valid analytic solution of two-dimensional viscous flow over a semi-infinite flat plate J FLUID MECH 385: 101-128 APR 25 1999 [9] Liao SJ (1, Mandelzweig VB, Tabakin F) An explicit, totally analytic approximate solution for Blasius' viscous flow problems INT J NONLINEAR MECH 34 (4): 759-778 JUL 1999 [10] Liao SJ, Chwang AT (2,Marinca V; Wu B, Li P) Application of homotopy analysis method in nonlinear oscillations J APPL MECH-T ASME 65 (4): 914-922 DEC 1998 [11] Liao SJ (0) Homotopy analysis method: A new analytic method for nonlinear problems APPL MATH MECH-ENGL 19 (10): 957-962 OCT 1998 [12] Liao SJ (0) General boundary element method for Poisson equation with spatially varying conductivity ENG ANAL BOUND ELEM 21 (1): 23-38 JAN 1998 [13] Liao SJ (1,Cui WC, Song H) On the general boundary element method ENG ANAL BOUND ELEM 21 (1): 39-51 JAN 1998 [14] Liao SJ (3,Cui WC, Song H; He JH; He JH) Boundary element method for general nonlinear differential operators ENG ANAL BOUND ELEM 20 (2): 91-99 SEP 1997 [15] Liao SJ (0) Numerically solving non-linear problems by the homotopy analysis method COMPUT MECH 20 (6): 530-540 NOV 1997 [16] Liao SJ, Gu YG, Zhu JM (0) Numerical simulation of dynamic response of towed systems CHINA OCEAN ENG 11 (1): 53-60 1997 [17] Liao SJ (0) A kind of approximate solution technique which does not depend upon small parameters .2. An application in fluid mechanics INT J NONLINEAR MECH 32 (5): 815-822 SEP 1997 [18] Liao SJ (0) High-order BEM formulations for strongly non-linear problems governed by quite general non-linear differential operators .2. Some 2D examples INT J NUMER METH FL 24 (9): 863-873 MAY 15 1997 [19] Liao SJ (0) High-order bem formulations for strongly non-linear problems governed by quite general non-linear differential operators INT J NUMER METH FL 23 (8): 739-751 OCT 30 1996 [20] Liao SJ, Zhu JM (2,Young DL, Yang SK, Eldho TI; Sullivan SK, McGrath DA, Liao F, et al.) A short note on high-order streamfunction-vorticity formulations of 2D steady state Navier-Stokes equations INT J NUMER METH FL 22 (1): 1-9 JAN 15 1996 [21] LIAO SJ (3, He JH; He JH; He JH) AN APPROXIMATE SOLUTION TECHNIQUE NOT DEPENDING ON SMALL PARAMETERS - A SPECIAL EXAMPLE INT J NONLINEAR MECH 30 (3): 371-380 MAY 1995 [22] LIAO SJ (0) A GENERAL NUMERICAL-METHOD FOR SOLUTION OF GRAVITY-WAVE PROBLEMS .2. STEADY NONLINEAR GRAVITY-WAVES INT J NUMER METH FL 14 (10): 1173-1191 MAY 30 1992 ◇◇新语丝(www.xys.org)(xys.dxiong.com)(xys1.dyndns.org)(xys888.dyndns.org)◇◇