From proynov {*at*} CHIMCN.UMontreal.CA Tue Jul 12 21:36 MET 1994 Received: from condor.CC.UMontreal.CA by milliways.physik.unizh.ch (5.0cf2.19) id AA21590; Tue, 12 Jul 94 21:36:34 +0200 Received: from chims1.CHIMCN.UMontreal.CA by condor.CC.UMontreal.CA with SMTP id AA12703 (5.65c/IDA-1.4.4 for suter ":at:" physik.unizh.ch); Tue, 12 Jul 1994 15:13:28 -0400 Received: by chims1.CHIMCN.UMontreal.CA (930416.SGI/5.17) id AA23816; Tue, 12 Jul 94 15:12:45 -0400 From: proynov \\at// CHIMCN.UMontreal.CA (Proynov Emil) Message-Id: <9407121912.AA23816 %-% at %-% chims1.CHIMCN.UMontreal.CA> Subject: deMon news To: suter |-at-| physik.unizh.ch Date: Tue, 12 Jul 1994 15:12:45 -0400 (EDT) Mime-Version: 1.0 Content-Transfer-Encoding: 7bit Content-Type: text/plain; charset=US-ASCII Content-Length: 2109 Status: RO Dear Dr. Suter, We understood from the network that you are interested in DFT programs for molecular calculations. Such programs are currently developed and used in our group under the supervision of prof. Dennis Salahub. At the moment we have several working versions of the so called package "deMon", based on the LCGTO-MO-DFT program written originaly by Dr. Alain St. Amant a couple of years ago. Let us now give gust a short gist of the options currently available in the code and if you are interested in more details you please do not hesitate to contact with us again. The code deMon basically performs a calculation of the electronic structure of molecules via SCF solution of the Kohn-Sham DFT equations. What one receives at the output is the total energy of the system (including the electron correlation) from which you can estimate the binding energy; the Kohn-Sham MO energies (which actually have the same chemical meaning as in the conventional MO-LCAO approach); the optimized molecular geometry (several different optimization procedures are currently included); optional detail vibrational analysis and evaluation of the IR spectral characteristics; complete Mullicken population analysis; evaluation of the dipol moments, polarizabilities and hyper-polarizabilities. You can try to maximize the quality of the calculations by testing several different options for the local and nonlocal exchange-correlation functionals, which are the soil of the method. Besides the well established already in the field options: LSD-Vosko-Wilk-Nossair, gradient-corrected schemes (GGA of Perdew and Becke), soon highly efficient new functionals will be available in the new release of deMon, developed in our group. Another interesting option you may use is the NMR appendix providing a detail calculation of NMR and EPR spectroscopic characteristics. Looking forward to hearing from you again, Best regards from Montreal, Mark Casida, Andreas Koster, Emil Proynov