The Berne Infinitesimal Bubble Chamber, BIBC, was almost pocket size, 6.5 centimetres across and with a visible volume containing about a wine glass of heavy liquid.
Bubble chambers are similar to cloud chambers, both in application and in basic principle. A chamber is normally made by filling a large cylinder with a liquid heated to just below its boiling point. As particles enter the chamber, a piston suddenly decreases its pressure, and the liquid enters into a superheated, metastable phase. Charged particles create an ionization track, around which the liquid vaporizes, forming microscopic bubbles. Bubble density around a track is proportional to a particle's energy loss. Bubbles grow in size as the chamber expands, until they are large enough to be seen or photographed. Several cameras are mounted around it, allowing a three-dimensional image of an event to be captured.
The BIBC chamber body was machined from a block of aluminium. It was filled with propane or freon. The chamber was designed to look for charmed particles, which are so un-stable that they usually decay too quickly to give big bubble chambers a good chance of catching them. In fact the track of a charmed particle could be lost amongst the 'large' (half a millimetre) bubbles of large chambers. The bubbles in the minichamber were about ten times smaller, and stood a better chance of picking up short tracks.[1] BIBC was used at the CERN SPS in the experiment NA18 as vertex detector together with a downstream 2 m streamer chamber of the MPI-Munich which allowed for momentum analysis of the charged particles.[2]
See also
References
- ↑ "From BEBC to LEBC and now BIBC" (PDF). CERN Bulletin. Geneva: CERN. 1980-03-03. p. 1.
- ↑ Ramseyer, E.; Hahn, B.; Hugentobler, E. (1982). "BIBC, a high resolution heavy liquid miniature bubble chamber". Nuclear Instruments and Methods in Physics Research. 201 (2–3): 335–340. Bibcode:1982NIMPR.201..335R. doi:10.1016/0167-5087(82)90561-0. ISSN 0167-5087.