Alongside the instrument development we propose a broad science program, from cultural heritage to bio-materials to energy related materials.
ISIS is a primary high-flux source of pulsed muon beams and the provision of such beams is an important contribution to the character of the facility. However, at ISIS (RIKEN-RAL) a high flux of negative muons is also available which opens up the possibility of answering different experimental questions of interest for a new type of user with different and interesting scientific questions . Figure 1 presents a cartoon schematic of the negative muon absorption and X-ray emission process. Negative muons can be considered as ‘heavy electrons’ and replace an electron in the outer shell of an atom, then travel to near the nucleus through the modified energy states of the atom. Each transition on this path produces an X-ray which is characteristic of the atom which absorbed the muon, hence allowing this spectrum to reflect the atomic species. The sensitivity of this technique is such that even light atoms can be detected (such an experiment is sensitive to all elements with atomic masses greater than Li). Furthermore, this technique can be used as a depth analysis tool, since by varying the momentum of the incident muon beam it is possible to change the depth of implantation for the negative muon .
Currently, elemental analysis commonly uses X-ray and electron beams which are good for measuring surfaces, however a significant advantage of muonic X-rays over those of electronic X-rays is their higher energy (0.01-6 MeV) due to the mass of the muon. These high energy muonic X-rays are emitted from the bulk of the samples without significant photon self-absorption. The penetration depth of the muons can be varied by controlling the muon momentum, providing data from a thin slice of sample at a given depth. This can be over a centimetre in iron, silver and gold or over 4 cm in less dense materials such as carbon.
We would like to employ a summer student to develop the data reduction and analysis of the data that has been collected.
The student will get experience in programming, data reduction and new scientific techniques. Last year a work experience student (A-level) started some of this work and made significant progress, and has asked to continue in the work over the summer, so it must be rewarding.
Supervisor: Adrian Hillier (firstname.lastname@example.org)
You might particularly like this if you are interested in any of these: natural sciences, scientific computing, engineering, applied mathematics.