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vasp的分子动力学模拟

已有 22708 次阅读 2012-9-13 19:34 |系统分类:科研笔记| VASP, 分子动力学

vasp做分子动力学的好处,由于vasp是近些年开发的比较成熟的软件,在做电子scf速度方面有较好的优势。
缺点:可选系综太少。
尽管如此,对于大多数有关分子动力学的任务还是可以胜任的。
主要使用的系综是 NVT 和 NVE。
下面我将对主要参数进行介绍!

一般做分子动力学的时候都需要较多原子,一般都超过100个。
当原子数多的时候,k点实际就需要较少了。有的时候用一个k点就行,不过这都需要严格的测试。通常超过200个原子的时候,用一个k点,即Gamma点就可以了。

INCAR:
EDIFF 一般来说,用1E-4 或者1E-5都可以,这个参数只是对第一个离子步的自洽影响大一些,对于长时间的分子动力学的模拟,精度小一点也无所谓,但不能太小。
IBRION=0 分子动力学模拟
IALGO=48 一般用48,对于原子数较多,这个优化方式较好。
NSW=1000 多少个时间步长。
POTIM=3 时间步长,单位fs, 通常1到3.
ISIF=2 计算外界的压力.
NBLOCK= 1 多少个时间步长,写一次CONTCAR,CHG和CHGCAR,PCDAT.
KBLOCK=50 NBLOCK*KBLOCK 个步长写一次 XDATCAR.
ISMEAR=-1 费米迪拉克分布.
SIGMA =0.05 单位:电子伏
NELMIN=8 一般用6到8, 最小的电子scf数.太少的话,收敛的不好.
LREAL=A
APACO=10 径向分布函数距离, 单位是埃.
NPACO=200 径向分布函数插的点数.
LCHARG=F 尽量不写电荷密度,否则CHG文件太大.
TEBEG=300 初始温度.
TEEND=300 终态温度。 不设的话,等于TEBEG.
SMASS -3 NVE ensemble;-1 用来做模拟退火。大于0 NVT 系综。

(http://cms.mpi.univie.ac.at/vasp/vasp/node95.html#incar)

This file determines the kind of job which VASP will perform; single point energy calculation (SPE), geometry

optimisation (GO - coarse/fine), molecular dynamics (MD - nve/nvt), spin polarised calculation (mag).

Examples can

be found in /home/cs/model/vasp_util.

Example; INCAR.spe

$system = single point energy calc

NELMIN = 4 minimum number of electronic SCF cycles

EDIFF = 1E-6 stooping criterion for electronic convergence

NSW = 0 number of ionic shifts

ISMEAR = 0 treatment of partial occupancies of electronic levels

Example; INCAR.coarse

$system = coarse geom optimisation

NELMIN = 4

EDIFF = 1E-2

EDIFFG = -1E-2 stopping criterion for forces Fmax < 0.01 eV/A

IBRION = 2 minimisation method, good away from minimum

ISIF = 3 optimise coords and cell pars

LREAL =.TRUE. do calc in real space - quicker

ISTART = 0 start with a random wavefunction

NSW = 20 maximum of 20 ionic shifts

ISMEAR = 0

LCHARG =.FALSE. don't write CHG and CHGCAR files

Example; INCAR.fine

$system = geom optimisation

NELMIN = 4

EDIFF = 1E-6

EDIFFG = -1E-4

PREC = high increase energy cut-off by 25%

IBRION = 1 minimisation method, good close to minimum

ISIF = 3

NSW = 50

ISMEAR = 0

LCHARG=.FALSE.

Example; INCAR.mag

$system = collinear mag structure calc

IBRION = 1

ISIF = 3

NPAR = 1 forces mag structure to be written in output file

EDIFF = 1E-6

EDIFFG = -1E-3

PREC = high

RWIGS = 1.376 0.900 1.233 1.302 radii for spherical integration of spin density, 1 per atom

ISPIN = 2 do spin polarised calc

MAGMOM = 24*0 5 -5 -5 5 initial mag moments for 28 atoms

NSW = 20

Example; INCAR.nve

$system = molecular dynamics

ALGO = V

MAXMIX = 40

IBRION = 0 do molecular dynamics

NSW = 6000 number of time steps

NBLOCK = 1 store structure every time step

POTIM = 3.0 time step 3fs

TEBEG = 673 target temperature

ISYM = 0 turn off symmetry

SMASS = -3 NVE ensemble

LREAL =.TRUE.

LCHARG =.FALSE.

NELMIN = 4

PREC = LOW reduce energy cut-off by 25% for MD

ISTART = 0

ISMEAR = 0; SIGMA=0.1

Example; INCAR.nvt

$system = molecular dynamics

ALGO = V

MAXMIX = 40

IBRION = 0

NSW = 6000

NBLOCK = 1

POTIM = 3.0

TEBEG = 673

ISYM = 0

SMASS = 2 NVT ensemble, value determines frequency of coupling to heat bath

LREAL =.TRUE.

LCHARG =.FALSE.

NELMIN = 4

PREC = LOW

ISTART = 0

ISMEAR = 0; SIGMA=0.1

Example; INCAR.scale

$system = molecular dynamics quench

ALGO = V

MAXMIX = 40

IBRION = 0

NSW = 50

NBLOCK = 5 rescale temperature every 5 steps

POTIM = 3.0

TEBEG = 683 initial temp

TEEND = 673 final temp

ISYM = 0

SMASS = -1 MD with velocity scaling

LREAL =.TRUE.

LCHARG =.FALSE.

NELMIN = 4

PREC = LOW

ISTART = 0

ISMEAR = 0; SIGMA=0.1



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