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4.LEPSILON:Ó¦ÓÃDFPT¼ÆË㾲̬½éµç¾ØÕó£¬Àë×Ó¼Ó³ÖѹµçÕÅÁ¿ºÍ²¨¶÷ÓÐЧµçºÉµÄÉèÖà LEPSILON= .TRUE. | .FALSE. ¿ÉÑ¡Ï Default: LEPSILON=.FALSE. ȱʡѡÔñΪ²»Ñ¡¸ÃÏî ÓÃDFPT¾ö¶¨Àë×Ó¼Ó³Ö½éµçÕÅÁ¿¾ØÕó¡£½éµç¾ØÕó¼ÆËãʱ¿¼ÂDz»¿¼ÂǾÖÓò³¡Ó°Ïì¡£¾ÖÓò³¡Í¨³£È¡¾öÓÚHartreeÄܼ¶£¬Ò²¾ÍÊÇ°üÀ¨HartreeÊƵı仯¡£ÎªÁË°üº¬½»»»ÐÞÕýÊƵÄ΢¹Û±ä»¯£¬±ØÐ뽫±êÇ©LRPA=.FALSE.£¨¸Ã²ÎÊýÉèÖóÉ.FALSE.²Î¿´Sec.6.65.5£©¡£Ref.[84]ÖÐÓи÷½·¨µÄϸ½Ú½âÊÍ£¬Ò²¿É²Î¿¼Baroni and Resta.[85]µÄÔ´´ÎÄÏס£²»ÔÙÐèÒª¶Ô¿Õµ¼´ø״̬½øÐмӺͣ¬ÕâÓ뽫²ÎÊýLOPTICSÉèÖóÉ.TRUE.¸ÕºÃÏà·´(see Sec. 6.65.1)¡£Í¨³£µÄ΢ÈÅÀíÂÛÖеıí´ïʽ£º XXXX ±»Ìæ´úÖØдΪÏßÐÔSternheimer·½³Ì£º YYYY ¸Ã·½³Ì¿ÉÓÃСµÄ´«Í³µÄ×ÔǢѻ·Çó½â¡£ÓÚÊÇ£¬¼¸ÐеĽéµç³£Êý¾ØÕóÔª£¬¿ÉÒÔ±»Ð´½østdoutºÍOSZICARÖÐ.ÕâÓ봫ͳµÄ×ÔÇ¢ºÍ·Ç×ÔÇ¢¼ÆËãµÄģʽÏàͬ£¨×îС¶þ³Ë·¨/Ê£Óà×îС²ÎÊý·¨£¬±»ÓÃÀ´Çó½âÕâ¸öÏßÐÔ·½³Ì£¬¶ø²»ÓÃÈçDavidson·½·¨µÈÆäËû·½·¨À´Çó½â£© N Ñ»·´ÎÊý EÄÜÁ¿ dEÄÜÁ¿±ä»¯ deps½éµç³£Êý±ä»¯ ncg £¿ rms²ÐÁ¿ rms(c) ²ÐÁ¿c£¿ RMM: 1 -0.14800E+01 -0.85101E-01 -0.72835E+00 220 0.907E+00 0.146E+00 RMM: 2 -0.14248E+01 0.55195E-01 -0.27994E-01 221 0.449E+00 0.719E-01 RMM: 3 -0.13949E+01 0.29864E-01 -0.10673E-01 240 0.322E+00 0.131E-01 RMM: 4 -0.13949E+01 0.13883E-04 -0.31511E-03 242 0.600E-01 0.336E-02 RMM: 5 -0.13949E+01 0.28357E-04 -0.25757E-04 228 0.177E-01 0.126E-02 ÐèҪעÒâµÄÊÇ£¬¼´Ê¹½ö½ö¼ÆËã¼Û´øµÄ״̬Ҳ¿ÉµÃµ½¾«È·µÄ½éµç¾ØÕó£¬ËùÒԸ÷½·¨²»ÐèÒªÔö¼ÓNBANDSµÄÊýÄ¿. Êä³ö¾²Ì¬½Úµãº¯Êý½á¹û´æÓÚOUTCAR ÎļþÖУ¬¼´Î»ÓÚMACROSCOPIC STATIC DIELECTRIC TENSOR ÕâÒ»ÐÐ(DFTÖв»°üÀ¨¾ÖÓò³¡)ºÍMACROSCOPIC STATIC DIELECTRIC TENSOR (°üÀ¨¾ÖÓò³¡Ð§Ó¦)ºóÃæ¡£ MACROSCOPIC STATIC DIELECTRIC TENSOR ÕâÒ»ÐÐ(DFTÖв»°üÀ¨¾ÖÓò³¡)ºóµÄÖµÓ¦¸ÃÓëÑ¡ÔñLOPTICS£¨ÉèÖóÉTRUE.£©ËùµÃµÄ ʱµÄÁãƵֵÍêÈ«Æ¥Åä (see Sec. 6.65.1)¡£ÕâÌṩÁËÒ»¸ö·½±ãµÄ·½·¨È¥¾ö¶¨µ±LOPTICSÉèÖóÉTRUE..ÐèÒª¶àÉÙ¸ö¿Õ´ø¡£ÎªÁ˵õ½È·ÇеĽéµç³£Êý£¬¼òµ¥µÄÉèÖÃLEPSILON=.TRUE.ÔËÐÐVASP¼´¿É¡£½Ó×ÅʹLOPTICSÉèÖÃΪ.TRUE.²¢Ôö¼Óµ¼´øÊýÖ±ÖÁµÃµ½ºÍDFPTÔËËãËùµÃµÄÖµÒ»Ñù¡£ ×¢ÒâLNABLA tag (see Sec. 6.65.3)Öв¹³äÓÐÕâ¸ö²Ù×÷¹æ³ÌµÄÓï·¨ºÍËùÓõÄÖµ¡£²¢ÇÒ£¬Õâ¸ö²Ù×÷¹æ³Ì¼ÆËã¿É¼ÆË㲨¶÷µçºÉÕÅÁ¿£¨¶¯Ì¬µçºÉ£©ºÍµç×Ó¹±Ï׶ÔѹµçÕÅÁ¿µÄ¹±Ï×£¬Èç¹ûLRPAÉèÖÃΪ.FALSE.£¨Ëæ»úÏà¼ÆËãÖÐËùµÃÕÅÁ¿¶ÔÉèÖÃLRPA=.TRUE.²¢²»Ãô¸Ð£©ÔòËùµÃÖµÔÚBORN EFFECTIVE CHARGES (µ¥Î»e,ÀÛ¼Æֵȫ²¿Êä³ö)ºÍ PIEZOELECTRIC TENSOR for field in x, y, z (C/m^2)À¸Ö®ºóÁгö¡£ Pros ÓëLOPTICSÉèÖÃΪ.TRUE. (see Sec. 6.65.1)ʱµÄ²îÒ죬LOPTICS¼ÆËãÖÐ: • ²»ÐèÒªµ¼´ø • ¾ÖÓò³¡Ð§Ó¦°üº¬ÔÚRPA/Ëæ»úÏà ºÍ DFTÄÚ(see Sec. 6.65.5). Cons Óë LOPTICSÉèÖÃΪ.TRUE.ʱµÄ²îÒ죬Cons¼ÆËãÖÐ(see Sec. 6.65.1): • Ä¿Ç°½ö¿É¼ÆË㾲̬ÐÔÖÊ. • ¼ÆËã¹ý³ÌÏà¶ÔºÜºÄʱ. • ²»Ö§³ÖHF »òhybride functionals/ÔÓ»¯·ºº¯, µ«LOPTICSÉèÖÃΪ.TRUE. »òÕß ÓÃGW ·½·¨Ê±Ö§³Ö. µ¥´ÎÔËÐÐʱ¶ÔÑ¡ÔñLOPTICS=.TRUE. ºÍ LEPSILON=.TRUE.²»Ãô¸Ð£¨È»¶øËüȷʵÆð×÷Óã©¡£DFPT¼ÆËãÖн«LEPSILON=.TRUE.ʱ²»ÔÙÐèÒªÔö¼ÓNBANDS£¬²¢ÇÒÊÂʵÉÏNBANDSÔö¼ÓʱÔËË㽫±äµÄºÜÂý£¬ÒòΪÕâÊÇÐèÒª¶ÔºÜ¶à¿Õµ¼´ø½øÐмӺͼÆËã. |
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ÐèÒª·ÒëµÄÔÎÄÈçÏÂ1¡¢LOPTICS: frequency dependent dielectric matrix LOPTICS: frequency dependent dielectric matrix LOPTICS= .TRUE. | .FALSE. Default: LOPTICS=.FALSE. If LOPTICS=.TRUE., VASP calculates the frequency dependent dielectric matrix after the electronic ground state has been determined. The imaginary part is determined by a summation over empty states using the equation: (54) where the indices and refer to conduction and valence band states respectively, and is the cell periodic part of the orbitals at the k-point . The real part of the dielectric tensor is obtained by the usual Kramers-Kronig transformation (55) where denotes the principle value. The method is explained in detail in Ref. [84] (Eq. (15), (29) and (30) in Ref. [84]). The complex shift is determined by the parameter CSHIFT (Sec. 6.65.2). Note that local field effects, i.e. changes of the cell periodic part of the potential are neglected in this approximation. These can be evaluated using either the implemented density functional perturbation theory (see Sec. 6.65.4) or the GW routines (see Sec. 6.66). Furthermore the method selected using LOPTICS=.TRUE. requires an appreciable number of empty conduction band states. Reasonable results are usually only obtained, if the parameter NBANDS is roughly doubled or tripled in the INCAR file with respect to the VASP default. Furthermore it is emphasized that the routine works properly even for HF and screened exchange type calculations and hybrid functionals. In this case, finite differences are used to determine the derivatives of the Hamiltonian with respect to . Note that the number of frequency grid points is determined by the parameter NEDOS (see Sec. 6.36). In many cases it is desirable to increase this parameter significantly from its default value. Values around 2000 are strongly recommended. 1¡¢LOPTICS:ƵÂÊÒÀÀµµÄ½éµç¾ØÕó LOPTICS= .TRUE. | .FALSE. Default: LOPTICS=.FALSE. Èç¹ûLOPTICS=.TRUE.£¬Ôڵõ½µç×Ó»ù̬ºóVASP»á¼ÆËãƵÂÊÒÀÀµµÄ½éµç¾ØÕó¡£ÆäÐ鲿ÓÉÏÂÃæµÄ·½³Ì¶Ô¿Õ̬»ý·ÖµÃµ½ ÆäÖÐÏÂ±ê ºÍ ·Ö±ð¶ÔÓ¦ÓÚµ¼´øºÍ½é´øµç×Ó̬£¬ ÊÇÔÚÈ·¶¨K-pointµã ¹ìµÀµÄ¾§°ûÖÜÆÚÐÔ²¿·Ö¡£½éµçÕÅÁ¿µÄʵ²¿ÓÉ¿ËÀÄ©-¿ËÀÊÄá¸ñ±ä»»µÃµ½¡£ (55) ÆäÖÐ ´ú±íÖ÷Öµ¡£ Õâ·½·¨µÄÔÀíÔÚÎÄÏ×84(ÎÄÏ×84Öеķ½³Ì(15), (29)ºÍ (30))ÖÐÓоßÌå½âÊÍ¡£¸´ÊýƽÒÆÁ¿ ÓвÎÊýCSHIFT¾ö¶¨¡£(Sec. 6.65.2). ÐèҪעÒ⣬¾ÖÓò³¡Ð§Ó¦£¬Ò²¾ÍÊÇÊÆÄܵľ§°ûÖÜÆÚÐÔ²¿·ÖÔÚÕâÖÖ½üËÆÖб»ºöÂÔÁË¡£ÕâЩЧӦ¿ÉÒÔͨ¹ýÃܶȷºº¯Î¢ÈÅÀíÂÛ(see Sec. 6.65.4)»òÕßGW(see Sec. 6.66)³ÌÐòËã³ö¡£´ËÍ⣬ѡȡLOPTICS=.TRUEʱ£¬Õâ·½·¨ÐèÒªÏ൱¿É¹ÛÊýÁ¿µÄ¿Õµ¼´øµç×Ó̬¡£ºÏÀíµÄ½á¹ûÖ»ÄÜÊÇÔÚINCARÎļþÖеÄNBANDS Öµ´ó¸ÅÈ¡VASPĬÈÏÖµµÄ2£¬3±¶Ê±µÃµ½¡£ÁíÍ⣬ÕâÀïÐèÒªÖصãÖ¸³öµÄÊÇ£¬hartree-fock£¬ÆÁ±Î½»»»ÀàÐ͵ļÆËãºÍÔÓ»¯·ºº¯µÄ³ÌÐò¡£ÕâÖÖÇé¿öÏ£¬ÓÃÓÐÏÞ²î·Ö·¨À´¾ö¶¨¹þÃܶÙÁ¿¹ØÓÚ µÄµ¼Êý¡£ ÐèҪעÒâµÄÊÇ£¬ÆµÂÊÍø¸ñµãµÄÊýÁ¿ÓɲÎÊýNEDOS(see Sec. 6.36)¾ö¶¨¡£ÔںܶàÇé¿öÏÂÐèÒªÔö¼ÓÕâ¸ö²ÎÊýÖµ£¬ÏÔÖøµÄ¸ßÓÚËüµÄĬÈÏÖµ¡£2000×óÓÒµÄÊýÖµÊÇÎÒÃÇÇ¿ÁÒÍƼöµÄ¡£ word °æhttp://pic.muchong.com/file.php?id=138 [ Last edited by wuli8 on 2010-11-18 at 23:11 ] |
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wuli8
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ÐèÒª·ÒëµÄÔÎÄÈçÏÂ2¡¢CSHIFT: complex shift in Kramers-Kronig transformation CSHIFT= [real] Default: CSHIFT=0.1 The implemented Kramers-Kronig transformation uses a small complex shift CSHIFT in Eq. (6.49). The default for this shift is 0.1, which is perfectly acceptable for most calculations and causes a slight smoothening of the real part of the dielectric function. If the gap is very small (i.e. approaching two times CSHIFT), slight inaccuracies in the static dielectric constant are possible, which can be remedied by decreasing CSHIFT. If CSHIFT is further decreased, it is strongly recommended to increase the parameter NEDOS to values around 2000 (see Sec. 6.36).CSHIFT: ¿ËÀÄ©-¿ËÀÊÄá¸ñ±ä»»Öеĸ´ÔÓ£¨Êý£¿£©Òƶ¯ CSHIFT= [ʵÊý] Default: CSHIFT=0.1 ȱʡÉèÖÃÖµ£º0.1 ÔÚ¶ÔEq. (6.49)ʵʩ¿ËÀÄ©-¿ËÀÊÄá¸ñ±ä»»Ê±Ê¹ÓÃÁËÒ»¸öСµÄ¸´ÊýÒƶ¯ CSHIFT¡£È±Ê¡ÉèÖÃֵΪ0.1£¬Õâ¸öÖµ¶Ô´ó¶àÊý¼ÆËã¿ÉµÃ³ö¿É½ÓÊܵĽá¹û£¬Í¬Ê±¿Éʹ½éµçº¯ÊýµÄʵ²¿±äµÃƽ»¬¡£Èç¹ûÄÜ϶ºÜС£¨Ò²¾ÍÊǽӽüCSHIFTµÄ2±¶£©£¬¿ÉÄܻᵼÖ¼ÆËãËùµÃµÄ¾²Ì¬½éµçº¯ÊýÉÔÏÔ²»×¼È·£¬Õâ¿ÉÒÔͨ¹ý¼õСCSHIFT¶øµÃµ½ÐÞÕý¡£Èç¹ûCSHIFT½øÒ»²½¼õС£¬Ç¿ÁÒÍƼöÔö´ó²ÎÊýNEDOSÖÁ2000×óÓÒ(see Sec. 6.36) ±¾ÎÄÀ´×Ô: Сľ³æÂÛ̳ http://muchong.com/bbs/viewthread.php?tid=2592318&fpage=1&view=&highlight=&page=2 [ Last edited by wuli8 on 2010-12-6 at 23:34 ] |
3Â¥2010-11-13 23:47:30
wuli8
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ÐèÒª·ÒëµÄÔÎÄÈçÏÂ3LNABLA: transversal gauge LNABLA= .TRUE. | .FALSE. Default: LNABLA=.FALSE. Usually VASP uses the longitudinal expression for the frequency dependent dielectric matrix as described in the preceeding section (see. 6.65.1). It is however possible to switch to the computationally somewhat simpler transversal expressions by selecting LNABLA=.TRUE. (in this case Eq. (17) and (20) in Ref. [84]). In this simplification the imaginary part of the macroscopic dielectric function is given by (56) Except for the purpose of testing, there is however hardly ever a reason to use the transversal expression, since it is less accurate.[84] [ Last edited by wuli8 on 2010-11-14 at 00:44 ] |
4Â¥2010-11-13 23:48:10
