Report on Computational Science and Engineering Support Activities at Daresbury Laboratory 1999/2000 - 6


ChemShell – Software for QM/MM Calculations
Developments in QM/MM modelling. The principal activity over the next two years will be:




An interface has been developed that enables the GAMESS-UK code to be embedded within the CHARMM molecular modelling package providing an ab-initio density functional theory Report on Computational Science and Engineering Support Activities at Daresbury Laboratory 1999/2000 - 6 QM/MM capability. The code has been tested on a variety of applications in collaboration with academic groups. The interface will be available in an imminent academic release of CHARMM. The GAMESS Report on Computational Science and Engineering Support Activities at Daresbury Laboratory 1999/2000 - 6-UK part of the interface is distributed within the recent release of the code.


For further details see the article in Annex 3:

Coupled Quantum Mechanical/ Molecular Mechanical Developments



CCP1 Flagship Project
Details Report on Computational Science and Engineering Support Activities at Daresbury Laboratory 1999/2000 - 6 to be discussed when the next flagship project is known. Support requirement potentially to include work on ab initio and QM/MM dynamics simulations (a follow-up to the QUASI European Report on Computational Science and Engineering Support Activities at Daresbury Laboratory 1999/2000 - 6 project, March '01).


The CCP1 renewal proposal will be submitted in the summer of 2000. CCP1 support staff have been engaged in preparing the flagship proposal that will фокус on developing Car-Parrinello Report on Computational Science and Engineering Support Activities at Daresbury Laboratory 1999/2000 - 6 methodologies for quantum chemistry applications.


^ CCP2 - Continuum States of Atoms and Molecules



CCP2 currently has a travel grant to support the collaboration. A flagship grant is under consideration to support the development of an efficient Report on Computational Science and Engineering Support Activities at Daresbury Laboratory 1999/2000 - 6 2-dimensional propagator code. The work described below complements the new flagship proposal providing support for longer-term development and exploitation of established projects and technical support for a range of Report on Computational Science and Engineering Support Activities at Daresbury Laboratory 1999/2000 - 6 grants in the area of atomic and molecular physics within CCP2’s mandate.


Unfortunately the CCP2 flagship project was not funded; the proposal is currently being modified prior to re-submission.



^ Administrative Support Report on Computational Science and Engineering Support Activities at Daresbury Laboratory 1999/2000 - 6
Working Group Meetings: Minutes of CCP2 Working Group. Organisation of meetings, especially of subgroup concerned with Multiphoton Processes. Travel costs to these meetings are borne by the appropriate grants.


Meetings organised by University Report on Computational Science and Engineering Support Activities at Daresbury Laboratory 1999/2000 - 6 of Strathclyde.


Newsletter: responsibility of the RA on the flagship grant (if funded).



^ Web Material: Development and maintenance of CCP2 and (e,2e) sub project web pages.


CCP2 web pages maintained Report on Computational Science and Engineering Support Activities at Daresbury Laboratory 1999/2000 - 6 on current version of departmental web on dedicated server.


Conferences/ Workshops: included in flagship grant (if funded).


Visitors’ Programme: included in flagship grant (if funded).


Financial Management: Administration of Travel and Report on Computational Science and Engineering Support Activities at Daresbury Laboratory 1999/2000 - 6 Subsistence claims.


^ Applications Development and Support
All the research topics involve collaborations with university groups.
Develop the direct R-Matrix-Floquet approach for treating multiphoton processes.



Completed the first two tasks with the resulting code demonstrated with application to the field ionisation of Argon and Neon by Report on Computational Science and Engineering Support Activities at Daresbury Laboratory 1999/2000 - 6 a KrF laser.


For further details see the technical article in Annex 4:

Calculations of Resonance Enhanced Multiphoton Ionization of Argon and Neon.


Significant progress has been мейд in the third and fourth tasks. Code for Report on Computational Science and Engineering Support Activities at Daresbury Laboratory 1999/2000 - 6 the quasi-energy search is about to be tested. The methodology underlying the modelling of relativistic effects is being developed. Once these technical issues have been resolved within the atomic framework Report on Computational Science and Engineering Support Activities at Daresbury Laboratory 1999/2000 - 6 then work will move on to a consideration of how to deal with molecules.
Develop methods for describing low-energy electron scattering by ionic solids.



A paper summarising progress during the first stage of this project has been submitted for publication. Once accepted the grant proposal addressing Report on Computational Science and Engineering Support Activities at Daresbury Laboratory 1999/2000 - 6 the multiple scattering implementation will be resubmitted.



Study positronium formation as an example of an atomic rearrangement process.



The first two tasks have been completed and Report on Computational Science and Engineering Support Activities at Daresbury Laboratory 1999/2000 - 6 the work is summarised in the article in Annex 4:

Atomic Rearrangement Collisions.


Work on the final task is being discussed with the community.




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