| From: |
Herbert Homeier t4720 <Herbert.Homeier' at \`chemie.uni-regensburg.de&g |
| Date: |
Thu, 16 Nov 95 10:44:51 +0100 |
| Subject: |
Re: CCL:G:[Q]: How to keep a particular state in G94? |
yu (yu -x- at -x- infiniti.wavefun.com) wrote (Wed, 15 Nov 1995 07:57:54 -0800):
> On Nov 15, 11:29am, wrote:
> > Subject: CCL:G:[Q]: How to keep a particular state in G94?
> > Dear all,
> >
> > I had a question that I hope someone on the list can help. I am
> > doing some calculations on small transition metal compound using Gaussian
> > 94. I carried out an SCF calculation which gives me a particular state but
> > I would like to calculate a DIFFERENT state. After using
> > guess=(read,alter) to get to the state I like, the SCF brings it back to
> > the original state that I do not want.
> >
> > My question is: is there anyway I can get Gaussian to keep the same
> > state from my guess=(read,alter) job?
> >
> > yours sincerely,
> > Ida N. L. Ma
> >
...
>
> Dear Dr. Ma,
>
> The reason causing your problem isn't program you used, but a basic theoretical
> one. If the excited state you want to get has same symmetry with ground state,
========================================================================
> according to the Variational Principle (SCF bases on the principle), if you
======
> only do One-Determinant calculation, the energy you get is always the ground
============================================================================
> state's. To study your problem, you need to use MCSCF or sophisticated CI
=======
> methods.
>
> Good luck!
>
> Jianguo Yu
>
Is the underlined sentence really true? As far as I remember the
excited states of the same symmetry as the ground state are saddle
points of the functional that is minimized in a variational calculation
(as are the excited states of the other symmetries). That would imply
that an SCF calculation can converge to a particular excited state of
ground state symmetry if the initial guess is close enough. (in
principle, not paying attention to rounding errors etc.)
I faintly remember that some people did a similar thing in DFT to
obtain excited states from one-determinant wave functions.
If this saddlepoint approach is in principle ok, the main problem would
be to get accurate initial guesses. In a situation where many excited
states are close together in energy or closely coupled (like in many
transition metal compounds), this is expected to be rather difficult.
By the way: The above should not be interpreted in the sense that I
recommend not to use MCSCF / CI. 8^)
Best regards
Herbert Homeier
--------------------------------------------------------------
Dr. Herbert H. H. Homeier
Institut fuer Physikalische und Theoretische Chemie
Universitaet Regensburg
D-93040 Regensburg, Germany
Phone: +49-941-943 4720 FAX : +49-941-943 2305
email: na.hhomeier { *at * } na-net.ornl.gov
http://rchs1.uni-regensburg.de/%7Ec5008/">HOMEPAGE
---------------------------------------------------------------
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