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This stone-age program implements arbitrary-order CC and CC-F12 algorithms.
Author:
Toru Shiozaki <shiozaki@qsimulate.com>
With a contribution from
Prof. Muneaki Kamiya
Under the guidance of
Prof. So Hirata (UF, now at UIUC)
Prof. Edward Valeev (Virginia Tech)
>> disclaimer <<
This was written when I did not know that python program can be split into several files (nobody taught me that!). Therefore everything is in one python file. I must admit that (as of July 2013) I do not remember how to use it exactly :-)
Relevant references (proof that it once worked):
T. Shiozaki, M. Kamiya, S. Hirata, and E. F. Valeev,
Physical Chemistry Chemical Physics 10, 3358 (2008),
"Equations of explicitly-correlated coupled-cluster methods."
T. Shiozaki, M. Kamiya, S. Hirata, and E. F. Valeev,
The Journal of Chemical Physics (Comm.) 129, 071101 (2008),
"Explicitly correlated coupled-cluster singles and doubles method based on complete diagrammatic equations."
T. Shiozaki, M. Kamiya, S. Hirata, and E. F. Valeev,
The Journal of Chemical Physics 130, 054101 (2009),