milisocial.blogg.se - Antimatter chemistry

ANTIMATTER CHEMISTRY SOFTWARE

Informal inquiries can be made to Dr M Law () with a copy of your curriculum vitae and cover letter.Possible formation of exotic atoms composed of particles and antiparticles, (e.g.

Detailed CV, Personal Statement/Motivation Letter and Intended source of funding.

All degree certificates and transcripts (Undergraduate AND Postgraduate MSc-officially translated into English where necessary).

When applying please ensure all required documents are attached:

State the exact project title on the application form.

State ‘Self-funded’ as Intended Source of Funding.

State name of the lead supervisor as the Name of Proposed Supervisor.

Apply for Degree of Doctor of Philosophy in Chemistry.

Proficiency in basic calculus and algebra: differential and integral calculus of a single variable complex numbers and the theory of polynomial equations, vector algebra in two and three dimensions, systems of linear equations and their solution, matrices and determinants.įormal applications can be completed online: The successful candidate should have, or expect to obtain, a UK Honours degree at 2.1 or above (or equivalent) in Chemistry or Physics or Chemical Physics, including experience of: atomic structure and chemical bonding and their description by quantum mechanics basic principles of the quantum mechanical treatments of molecular electronic, vibrational and rotational motions along with: Selection will be made on the basis of academic merit. Computer programs developed for this project may also be made use of by future research projects on matter-antimatter interactions involving more complex systems such as larger molecules.

The project will make use of state-of-the-art quantum chemistry techniques to calculate reaction rates as well as highly excited vibration-rotation energy levels. The prototype molecule-antimolecule system H 2 + antihydrogen molecule will also be tackled using techniques developed for simpler systems. H 2 + antihydrogen atom is a high priority system for the work at CERN along with charged variants such as H 2 + + antiproton.

Which destroy antimatter by breaking up antiatoms and eventual annihilation of the proton-antiproton and electron-positron pairs in Pn and Ps respectively. Reactive scattering results, for which current literature is sparse, give the rates of processes such as Specifically, the bound state energies and wavefunctions for these systems allow prediction and understanding of spectroscopic properties, for example energy levels and lifetimes of states. These potential energy surfaces (PESs) will then be used to calculate rovibrational bound states and reactive and non-reactive scattering properties.

ANTIMATTER CHEMISTRY SOFTWARE

The work will include development of high-performance computer software and calculation of potential energies of interaction for a number of key systems in antimatter research including H 2 + antihydrogen atom. This project will investigate interactions between antimatter and ordinary matter. There is also a growing interest in chemical reactions involving antimatter including the formation of the relatively long-lived antiprotonic helium system. Theoretical treatment of antimatter collisions is needed in order to understand how it is destroyed by interacting with normal matter and thus to allow better trapping and storage techniques to be developed. Recently interest in antimatter research has increased as facilities such as CERN have succeeded in trapping antimatter atoms for long periods to study their properties.