LUCRECIA experiment
List of ISOLDE experimental setups | |
---|---|
COLLAPS, CRIS, EC-SLI, IDS, ISS, ISOLTRAP, LUCRECIA, Miniball, MIRACLS, SEC, VITO, WISArD | |
Other facilities | |
MEDICIS | Medical Isotopes Collected from ISOLDE |
508 | Solid State Physics Laboratory |
![](http://upload.wikimedia.org/wikipedia/commons/thumb/1/18/LUCRECIA.jpg/220px-LUCRECIA.jpg)
The LUCRECIA experiment is a permanent experimental setup at the
Background
When an unstable
The
A total absorption spectrometer is made of a scintillator crystal, covering almost all of the solid angle surrounding the radioactive sample. Ideally, the crystal would be thick enough to have close to a 100% total efficiency, and should be blind to any other type of radiation. Photomultipliers (PMTs) are attached to the crystal to collect the gamma scintillating light produced in the crystal by the gamma radiation. The technique used may counter the pandemonium effect.[5]
Experimental setup
![](http://upload.wikimedia.org/wikipedia/commons/thumb/2/2e/Lucrecia_TAS_detector_at_ISOLDE_hall_at_CERN.png/220px-Lucrecia_TAS_detector_at_ISOLDE_hall_at_CERN.png)
LUCRECIA is installed at the end of one of the ISOLDE beam lines, and consists of the TAS with a tape station for implanting the radioactive activity.[1] Radioactive ion beams from ISOLDE are implanted onto the tape (held by a beam pipe) which is then transported to the centre of the TAS for measurement. By changing the position of the rollers, it is possible to implant the beam directly in the centre of the TAS, which allows for measurements of more exotic nuclei with shorter half-lives or outside the spectrometer and the moved into the detector.[citation needed]
The TAS is made of a piece of
Around the TAS there is a 19 cm thick shielding box made of four layers: polythene, lead, copper and aluminium. The box absorbs most external radiation, including neutrons, cosmic rays and background from the facility.[10]
Results
The results from experiments performed at the LUCRECIA setup, have been able to confirm theoretical predictions on the prolate shape of 76Sr ground state and an admixture of prolate and oblate shape for 74Kr ground state.[11][2][6]
Similar studies have been carried out in the neutron deficient mercury region.[12]
Currently, several experiments are in "preparation" stages using the LUCRECIA setup at the ISOLDE facility.[13][1]
External links
References
- ^ a b c Nacher, Enrique; Algora, Alejandro; Berta, Rubio (8 Jan 2020). "Upgrade and scientific programme of LUCRECIA, the Total Absorption Spectrometer at ISOLDE". CERN. Geneva. ISOLDE and Neutron Time-of-Flight Experiments Committee.
- ^ .
- ^ Rubio, B.; Gelletly, W. (2007). "Total absorption spectroscopy" (PDF). Romanian Reports in Physics. 59 (2): 635–654.
- ISBN 978-953-51-0018-8.
- ISBN 978-94-007-5555-0.
- ^ ISSN 0954-3899.
- ISSN 0370-2693.
- ISBN 978-4-89027-110-8.
- ^ Guadilla, Victor; Pfützner, Marek; Agramunt, Jorge; Algora, Alejandro; et al. (5 Jan 2021). "Beta-decay spectroscopy of 27Na and 22O for isospin asymmetry studies in the sd shell". CERN. Geneva. ISOLDE and Neutron Time-of-Flight Experiments Committee.
- ISSN 0375-9474.
- ISSN 0556-2813.
- hdl:10261/261345.
- ^ "Greybook". greybook.cern.ch. Retrieved 2023-07-31.