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mirror of https://github.com/TREX-CoE/qmc-lttc.git synced 2024-12-21 11:53:58 +01:00
This commit is contained in:
Anthony Scemama 2021-02-03 00:03:24 +01:00
parent c10c7697b9
commit 0140aff11c

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QMC.org
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@ -2577,7 +2577,7 @@ def MonteCarlo(a, nmax, dt, tau, Eref):
tau_current += dt
# Reset when tau is reached
if tau_current >= tau:
if tau_current > tau:
w = 1.
tau_current = 0.
@ -2608,8 +2608,8 @@ def MonteCarlo(a, nmax, dt, tau, Eref):
# Run simulation
a = 1.2
nmax = 100000
dt = 0.1
tau = 10.
dt = 0.05
tau = 100.
E_ref = -0.5
X0 = [ MonteCarlo(a, nmax, dt, tau, E_ref) for i in range(30)]
@ -2626,8 +2626,8 @@ print(f"A = {A} +/- {deltaA}")
#+END_SRC
#+RESULTS:
: E = -0.5006126340155459 +/- 0.00042555955652480285
: A = 0.9878509999999998 +/- 6.920791596475006e-05
: E = -0.500188803288012 +/- 0.0010615739297642462
: A = 0.9896496666666668 +/- 7.688845979106312e-05
*Fortran*
#+BEGIN_SRC f90
@ -2671,13 +2671,13 @@ subroutine pdmc(a, dt, nmax, energy, accep, tau, E_ref)
e = e_loc(a,r_old)
w = w * dexp(-dt*(e - E_ref))
energy = energy + w*e
norm = norm + w
energy = energy + w*e
tau_current = tau_current + dt
! Reset when tau is reached
if (tau_current >= tau) then
if (tau_current > tau) then
w = 1.d0
tau_current = 0.d0
endif
@ -2725,9 +2725,9 @@ end subroutine pdmc
program qmc
implicit none
double precision, parameter :: a = 1.2d0
double precision, parameter :: dt = 0.1d0
double precision, parameter :: dt = 0.05d0
double precision, parameter :: E_ref = -0.5d0
double precision, parameter :: tau = 10.d0
double precision, parameter :: tau = 100.d0
integer*8 , parameter :: nmax = 100000
integer , parameter :: nruns = 30
@ -2754,11 +2754,11 @@ gfortran hydrogen.f90 qmc_stats.f90 pdmc.f90 -o pdmc
#+end_src
#+RESULTS:
: E = -0.50067519934141380 +/- 7.9390940184720371E-004
: A = 0.98788066666666663 +/- 7.2889356133441110E-005
: E = -0.49963953547336709 +/- 6.8755513992017491E-004
: A = 0.98963533333333342 +/- 6.3052128284666221E-005
** TODO H_2
** H_2
We will now consider the H_2 molecule in a minimal basis composed of the
$1s$ orbitals of the hydrogen atoms:
@ -3102,15 +3102,20 @@ gfortran hydrogen.f90 qmc_stats.f90 vmc.f90 -o vmc
: E = -0.48584030499187431 +/- 1.0411743995438257E-004
* TODO [0/3] Last things to do
* Project
Change your PDMC code for one of the following:
- the Helium atom, or
- the H$_2$ molecule at $R$=1.401 bohr.
And compute the ground state energy.
* TODO Last things to do :noexport:
- [ ] Give some hints of how much time is required for each section
- [ ] Prepare 4 questions for the exam: multiple-choice questions
with 4 possible answers. Questions should be independent because
they will be asked in a random order.
- [ ] Propose a project for the students to continue the
programs. Idea: Modify the program to compute the exact energy of
the H$_2$ molecule at $R$=1.4010 bohr. Answer: 0.17406 a.u.
* Schedule
@ -3126,4 +3131,5 @@ gfortran hydrogen.f90 qmc_stats.f90 vmc.f90 -o vmc
| <2021-02-04 Thu 14:10-14:30> | 3.2 |
| <2021-02-04 Thu 14:30-15:30> | 3.3 |
| <2021-02-04 Thu 15:30-16:30> | 3.4 |
| <2021-02-04 Thu 16:30-18:30> | 4.5 |
|------------------------------+---------|