From owner-chemistry@ccl.net Wed Nov 28 08:53:01 2007
From: "feng zhu zhufengcc{:}gmail.com" <owner-chemistry*server.ccl.net>
To: CCL
Subject: CCL: spin changes through the reaction
Message-Id: <-35730-071128053054-12155-pqxmSJ58Cedb6Fdd/bIJ6w*server.ccl.net>
X-Original-From: "feng  zhu" <zhufengcc() gmail.com>
Date: Wed, 28 Nov 2007 05:30:51 -0500


Sent to CCL by: "feng  zhu" [zhufengcc * gmail.com]
Dear All,

I want to know how to deal with the spin-cross in the reaction path.

For example, a reaction from A to B:
For A, spin=1 is the most stable state while spin=3 is excited state.
But for B, spin=3 is the most stable state and spin=1 is excited state.

Then how we calculate this reaction path, how we define the barriar of this reaction, and how we estimate the possibility of this reaction?

Thank you very much!

Zhu


From owner-chemistry@ccl.net Wed Nov 28 10:50:02 2007
From: "Mike Towler mdt26..cam.ac.uk" <owner-chemistry[a]server.ccl.net>
To: CCL
Subject: CCL: Quantum Monte Carlo workshop, Tuscany
Message-Id: <-35731-071128093409-32688-w0OTmlK8tzb5w6a91DEmag[a]server.ccl.net>
X-Original-From: "Mike  Towler" <mdt26,+,cam.ac.uk>
Date: Wed, 28 Nov 2007 09:34:06 -0500


Sent to CCL by: "Mike  Towler" [mdt26]_[cam.ac.uk]
                   WORKSHOP ANNOUNCEMENT

         "Quantum Monte Carlo in the Apuan Alps IV"
         ==========================================

            Sat 26th July - Sat 2nd August 2008
          The Towler Institute, via del Collegio,
              Vallico Sotto, Tuscany, Italy

           http://www.vallico.net/tti/tti.html
                (Click 'PUBLIC EVENTS')

         A4 POSTER FOR THE WORKSHOP AVAILABLE HERE :
        http://www.vallico.net/tti/qmcitaa_08/poster.png


Continuing the series of alternative and very informal meetings at this
venue, the Cambridge University Theory of Condensed Matter group is
organizing a fourth International Workshop to discuss the development and
application of the continuum quantum Monte Carlo method in condensed
matter physics and quantum chemistry. The conference will take place in a
16th Century monastery in the mediaeval high mountain village of Vallico
Sotto (in the Tuscan Apuan Alps near the beautiful Italian city of Lucca).

The normal format for these events involves formal presentations being
restricted to the mornings, with the afternoons left free for relaxed
discussion and participation in fun activities. For the young and
vigorous, we organize mountain walks, caving and other healthy outdoor
exercise, whilst the unfit and elderly might enjoy artistic tours, city
visits and spa treatments, with all participants reuniting in the evening
for excellent Tuscan dinners in local restaurants. The monastery is a
unique venue where the community spirit and magnificent location have
inspired memorable meetings in the past.

This year's workshop will involve up to 35 people, all accommodated on
site. Given the limited space most speakers will be specifically invited,
but anyone who feels that they have something to contribute and who wishes
to attend the event is most welcome to contact the organizers (Mike Towler:
mdt26 at cam.ac.uk) for further details. There is no charge either for
attendance at the conference or accommodation.

CONFIRMED SPEAKERS:
David Ceperley (University of Illinois), 
Neil Drummond (Cambridge University), 
Matthew Foulkes (Imperial College, London), 
Pablo Lopez Rios (Cambridge University), 
Lubos Mitas (University of North Carolina), 
Andrew Morris (Cambridge University), 
Richard Needs (Cambridge University), 
Norbert Nemec (University of Regensburg), 
Mike Towler (Cambridge University), 
John Trail (Cambridge University)

FURTHER DETAILS AND PHOTOS FROM PREVIOUS WORKSHOPS ACCESSIBLE ON TTI WEB
PAGE - CLICK THE 'PUBLIC EVENTS' LINK OR LOOK AT 'EVENT PHOTOS'.

TTI CURRENTLY TAKING BOOKINGS FOR THE HOSTING OF CONFERENCES, SCHOOLS AND
GROUP MEETINGS IN EASTER/SUMMER 2008. ENQUIRIES WELCOME.


From owner-chemistry@ccl.net Wed Nov 28 13:08:01 2007
From: "Mike Towler mdt26(a)cam.ac.uk" <owner-chemistry|,|server.ccl.net>
To: CCL
Subject: CCL: QMC summer school - Tuscany
Message-Id: <-35732-071128130531-16754-LIETkAKMO7sozTBpRHrZTQ|,|server.ccl.net>
X-Original-From: "Mike  Towler" <mdt26 * cam.ac.uk>
Date: Wed, 28 Nov 2007 13:05:27 -0500


Sent to CCL by: "Mike  Towler" [mdt26_._cam.ac.uk]
                  
                SUMMER SCHOOL ANNOUNCEMENT

         "Quantum Monte Carlo and the CASINO program III"
         ================================================

              Sun 3rd August - Sun 10th August 2008
             The Towler Institute, via del Collegio,
                 Vallico Sotto, Tuscany, Italy

             http://www.vallico.net/tti/tti.html
                  (Click 'PUBLIC EVENTS')

            A4 POSTER FOR THE SCHOOL AVAILABLE HERE:
        http://www.vallico.net/tti/qmcatcp_08/poster.jpg


The third international summer school in the series "Quantum Monte Carlo
and the CASINO program" will take place during August 2008 at the Towler
Institute monastery in the Tuscan Apuan Alps, organized and hosted by
members of Cambridge University physics department's Theory of Condensed
Matter (TCM) Group. The aim of the school is to give students a thorough
introduction to quantum Monte Carlo as a method for performing
high-quality calculations of the electronic structure of real materials.
The course is designed for young scientists who have no previous
experience with this technique, though anyone interested is welcome to
take part.

Describing the complex behaviour of materials at the atomic level requires
a sophisticated description of the correlated motion of the electrons.
Quantum Monte Carlo (QMC) is an increasingly popular and explicitly
many-body method with the unusual capability of yielding highly accurate
results whilst also exhibiting a very favourable scaling of computational
cost with system size. Over the last seventeen years, the Cambridge group
have been researching QMC methods and we have created a powerful, general
computer program - CASINO - to carry out the calculations. The school will
focus both on the basic theory of QMC and on more advanced practical
techniques, and will include a thorough introduction to the CASINO
program. A background in density functional theory or similar is normally
thought to be useful.

The monastery is a delightful 16th century building incorporating an
ancient church, and is situated in the isolated but spectacular setting of
the Tuscan mountain village of Vallico Sotto. It is fully equipped with
state of the art presentation and computer technology. All accommodation
is on-site. There is a strictly-enforced policy for all events at the
Institute that considerable time should be set aside for mountain hikes,
caving, canyon walking, swimming in thermal baths, eating in wonderful
local restaurants, visits to classical concerts in Lucca and Barga, and
similar activities.

Instructors will include the main authors of the CASINO program, (Prof.
Richard Needs, Dr. Mike Towler, Dr. Neil Drummond, and Dr. Pablo Lopez
Rios) and possibly others.

The cost of the school for one week including accommodation will be around
400 GBP. Participants would need to arrange a flight to Pisa airport from
where onward transportation will be arranged.

Interested students should contact Mike Towler (mdt26 at cam.ac.uk) for
registration and further details.

Nice emails from students attending previous schools in this series:
--------------------------------------------------------------------

"Just a brief note to thank you again for hosting the QMC summer school. I
had a wonderful time in Tuscany, it was probably the best conference or
school I've attended. The science was excellent, and the location,
obviously, stunning. The Towler Institute is a very impressive place.
Every one of the participants was a pleasure to spend time with, and I've
come away with some friends with whom I intend to keep in contact."


"I am really happy to see that you are preparing a new Casino Summer
School in Vallico Sotto. It remains for me the most profitable workshop I
have ever had, associating the top quality of lectures and the excellent
practical training, making very difficult things to become accessible. It
remains also for me the type of ideal ambience associating work,
scientific discussion and entertainments."


"You bet how wonderful time I had (I believe others students did too) in
this fantastic summer school!! I would like to quote a very popular
Chinese poem to show my personal feeling of the almost ideal life in
Vallico Sotto.
               "Drinking Poem - 5 of 20" by Tao Yuan-ming

               I built my hut within where others live,
               But there is no noise of carriages and horses.
               You ask how this is possible:
               When the heart is distant, solitude comes.
               I pluck chrysanthemums by the eastern fence
               And see the distant southern mountains.
               The mountain air is fresh at dusk.
               Flying birds return in flocks.
               In these things there lies a great truth,
               But when I try to express it, I cannot find the words.

This can be recited by almost every Chinese fellow. I am also grateful for
the night of awesome firework, which was like special "time tunnel" to
bring me back to my childhood. Thank you and thank you!! I was in a bit
hurry I didn't bring camera with me, but the whole beautiful scenery has
been deeply impressed in my memory, which is unfadable for sure.."


"I will advice your school to anyone on the earth"

DETAILS AND PHOTOS FROM LAST YEARS EVENT ACCESSIBLE ON TTI WEB PAGE - CLICK
ON 'PUBLIC EVENTS' LINK OR LOOK AT 'EVENT PHOTOS'.

TTI CURRENTLY TAKING BOOKINGS FOR THE HOSTING OF CONFERENCES, SCHOOLS AND
GROUP MEETINGS IN EASTER/SUMMER 2008. Enquiries to mdt26 at cam.ac.uk .


From owner-chemistry@ccl.net Wed Nov 28 18:00:00 2007
From: "Pratik Verma pratikv]![stanford.edu" <owner-chemistry{:}server.ccl.net>
To: CCL
Subject: CCL: Projecting singlet density from broken symmetry density
Message-Id: <-35733-071128175657-710-jN5yi7GMLmUaGx/NN8xBYQ{:}server.ccl.net>
X-Original-From: "Pratik  Verma" <pratikv---stanford.edu>
Date: Wed, 28 Nov 2007 17:56:54 -0500


Sent to CCL by: "Pratik  Verma" [pratikv/a\stanford.edu]
Hi all, 

I am interested in determining the ground state density of an anti-ferromagnetically coupled system. I 
have been looking at broken symmtery approach that allows one to use single slater determinants and 
hence a variety of DFT methods. 

Within the broken symmetry approach the open shell singlet state is approximated a single 
determinant by mixing the HOMO and the LUMO of the closed shell singlet state. However, the 
optimized broken symmtery density is a mixture of the open shell singlet density (S=0,Ms=0) and 
triplet density (S=1, Ms=0), neither of which can be individually described by a single slater 
determinant. The amount of triplet contamination can be estimated from the deviation of S**2 value 
> from 0 for the broken symmtery state. Since, the other two microstates (Ms=+-1) of the triplet state 
can be described well as single determinants, the energy of the triplet density contaminating the 
broken symmtery density can be computed by computing either of the the two triplet densities. 

Now, I am interested in projecting out the open shell singlet density from the broken symmtery 
density but I cannot actually compute the specific triplet state that contaminates the broken symmetry 
state. 

Is anyone aware of any approach that allows one to get the open shell singlet density from the broken 
symmetry density?


From owner-chemistry@ccl.net Wed Nov 28 19:38:00 2007
From: "nokophala[#]aim.com" <owner-chemistry.:.server.ccl.net>
To: CCL
Subject: CCL: spin changes through the reaction
Message-Id: <-35734-071128192709-29461-U212J891jQQ4rfvMa3KbGQ.:.server.ccl.net>
X-Original-From: nokophala_._aim.com
Content-Type: multipart/alternative; 
 boundary="--------MB_8CA0035AD4ACF4E_1AE0_6566_webmail-stg-d07.sysops.aol.com"
Date: Wed, 28 Nov 2007 19:26:53 -0500
MIME-Version: 1.0


Sent to CCL by: nokophala/./aim.com

----------MB_8CA0035AD4ACF4E_1AE0_6566_webmail-stg-d07.sysops.aol.com
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You could calculate the reaction profile for each spin state, then identify the crossing of the two potential energy surfaces to locate the activation barrier. But a parameter that will remain unknown is the spin changing probability. Sometimes, even if activation energy is low, spin crossing can be difficult; These types of reactions are said to be spin forbidden.
-----Original Message-----
> From: feng zhu zhufengcc{:}gmail.com <owner-chemistry * ccl.net>
To: Phala, Noko  <nokophala * aim.com>
Sent: Wed, 28 Nov 2007 4:30 am
Subject: CCL: spin changes through the reaction




Sent to CCL by: "feng  zhu" [zhufengcc * gmail.com]
Dear All,

I want to know how to deal with the spin-cross in the reaction path.

For example, a reaction from A to B:
For A, spin=1 is the most stable state while spin=3 is excited state.
But for B, spin=3 is the most stable state and spin=1 is excited state.

Then how we calculate this reaction path, how we define the barriar of this 
reaction, and how we estimate the possibility of this reaction?

Thank you very much!

Zhuhttp://www.ccl.net/cgi-bin/ccl/send_ccl_messagehttp://www.ccl.net/chemistry/sub_unsub.shtmlhttp://www.ccl.net/spammers.txt________________________________________________________________________
More new features than ever.  Check out the new AIM(R) Mail ! - http://o.aolcdn.com/cdn.webmail.aol.com/mailtour/aol/en-us/text.htm?ncid=aimcmp00050000000001

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Content-Transfer-Encoding: 7bit
Content-Type: text/html; charset="us-ascii"

You could calculate the reaction profile for each spin state, then identify the crossing of the two potential energy surfaces to locate the activation barrier. But a parameter that will remain unknown is the spin changing probability. Sometimes, even if activation energy is low, spin crossing can be difficult; These types of reactions are said to be spin forbidden.<br>
-----Original Message-----<br>
> From: feng zhu zhufengcc{:}gmail.com &lt;owner-chemistry * ccl.net&gt;<br>
To: Phala, Noko  &lt;nokophala * aim.com&gt;<br>
Sent: Wed, 28 Nov 2007 4:30 am<br>
Subject: CCL: spin changes through the reaction<br>
<br>


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Sent to CCL by: "feng  zhu" [zhufengcc * gmail.com]
Dear All,

I want to know how to deal with the spin-cross in the reaction path.

For example, a reaction from A to B:
For A, spin=1 is the most stable state while spin=3 is excited state.
But for B, spin=3 is the most stable state and spin=1 is excited state.

Then how we calculate this reaction path, how we define the barriar of this 
reaction, and how we estimate the possibility of this reaction?

Thank you very much!

ZhuE-mail to subscribers: <A href="mailto:CHEMISTRY * ccl.net">CHEMISTRY * ccl.net</A> or use:
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