<HTML><BODY>Dear Mr. Grant Hill.<br>Thank you for a reply. <br><br>>The def2 series of basis sets was not designed to systematically approach the basis set limit...<br><br>These piece of information is important for us.<br>----------------------------------------------<br>>Think of a minimal basis for a first row element (C) and one for a transition metal (Ti), <br>lmax must be different simply to construct the occupied orbitals.<br><br>I get your idea about Carbon and Titanium minimal atomic basis sets. But I think, that it is possible<br>to make the correlation consistent basis sets in such a way, that all elements have the same lmax for a particular basis set.<br>For instance, one should augment the minimal Carbon basis set (lmax=p=1) with d-functions. As the result, Titanium and Carbon will<br>have the same value of lmax (for a particular basis set). This approach is fruitful until we take into consideration lanthanide and actinide elements <br>(in such case we need to go further and add f-functions to C and Ti basis sets).<br>----------------------------------------------<br>>One approach when using correlation consistent sets is to keep lmax as the largest for the system (usually the heaviest element) - meaning cardinal number + 1 in this case.<br><br>So, in case of AB molecule we should compare lmax for A and B and then choose the bigger one for extrapolation formula? <br>Hm, it sounds sensible. Thanks.<br><br> Alexander Medvedev<br><br>On, 23 Oct 2013, 16:32 +01:00 от Grant Hill <Grant.Hill@glasgow.ac.uk>:<br>
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<div id="style_13825423310000000902_BODY">Dear Sasha,<br>
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The def2 series of basis sets was not designed to systematically approach the basis set limit, so the standard extrapolation formulae are not really expected to work here (although I see no reason why Molpro should stop you trying - GIGO). There may be some more appropriate formulae in the literature, but I am not aware of them.<br>
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On 23 Oct 2013, at 13:17, sasha medvedev <<a target="_blank">vinsanity305@mail.ru</a>> wrote:<br>
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> Besides that, extrapolation formulae depend on the cardinal number n (which is the part of the basis set name - i.e. 2 for asvp, 3 for atzvp, 4 for aqzvp, and should be equal to the lmax). When we looked through output file, we noticed, that the same basis set has different lmax for different atoms:<br>
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This is entirely expected. Think of a minimal basis for a first row element (C) and one for a transition metal (Ti), lmax must be different simply to construct the occupied orbitals. One approach when using correlation consistent sets is to keep lmax as the largest for the system (usually the heaviest element) - meaning cardinal number + 1 in this case. A lack of high accuracy reference data means this isn't particularly well tested, but it _seems_ to work.<br>
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Best regards,<br>
<br>
Grant<br>
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