TIARA: A large solid angle silicon array for direct reaction studies with radioactive beams

Abstract: A compact, quasi-4π position sensitive silicon array, TIARA, designed to study direct reactions induced by radioactive beams in inverse kinematics is described here. The Transfer and Inelastic All-angle Reaction Array (TIARA) consists of 8 resistive charge division detectors forming an octagonal barrel around the target and a set of double-sided silicon-strip annular detectors positioned at each end of the barrel. The detector was coupled to the γ-ray array EXOGAM and the spectrometer VAMOS at the GANIL Labora… Show more

“…The large energy difference between the 3/2 + and 1/2 + states is indicative of the emergence of the N=16 shell gap, which is estimated to be 5.1(11) MeV. For the higher-lying resonance, which has a character consistent with a spinparity assignment of 3/2 + or 7/2 − , a 71(22)% branching ratio to the first 2 + state in 20 O has been observed. The magic numbers that explain the structure of nuclei close to stability have their origin in the gaps created by the single-particle eigenstates of the mean-field.…”

“…In addition, a second unbound level was observed. Whilst a definitive spin-parity assignment could not be made, the observation of neutron decay to the first excited 2 + state of 20 O indicates a considerable coreexcited component. The experiment was performed at the SPIRAL facility using a 10.5 AMeV 20 O beam with an integrated intensity of 1.65 x 10 9 particles and a typical rate of 10 4 pps.…”

“…The bound first-excited state of 21 O was determined to lie at 1.21(4) MeV. As in our earlier work [20,21], the target was also surrounded at 90 • by 4 EXOGAM clover detectors in a close packed geometry (photopeak efficiency, including addback [20], of 10(1)% at 800 keV). The coincident gamma-rays indicated an excitation energy of 1.213 (7) MeV.…”

“…The spectroscopy of 21 O has been investigated using a radioactive 20 O beam and the (d,p) reaction in inverse kinematics. The ground and first excited states have been determined to be J π = 5/2 + and 1/2 + respectively.…”

“…The target was a 0.59 mg/cm 2 thick CD 2 foil. The (d,p) reaction channel was selected using the identification of the beam-like residue in the VAMOS spectrometer and the kinematics of the proton, as measured using the TIARA silicon array [20] from 36 • to 169 • in the laboratory frame. The excitation energy in 21 O and the centre-of-mass (cm) scattering angle were obtained from the measured energy and angle of the recoiling protons.…”

Emergence of theN=16shell gap inO21

“…The large energy difference between the 3/2 + and 1/2 + states is indicative of the emergence of the N=16 shell gap, which is estimated to be 5.1(11) MeV. For the higher-lying resonance, which has a character consistent with a spinparity assignment of 3/2 + or 7/2 − , a 71(22)% branching ratio to the first 2 + state in 20 O has been observed. The magic numbers that explain the structure of nuclei close to stability have their origin in the gaps created by the single-particle eigenstates of the mean-field.…”

“…In addition, a second unbound level was observed. Whilst a definitive spin-parity assignment could not be made, the observation of neutron decay to the first excited 2 + state of 20 O indicates a considerable coreexcited component. The experiment was performed at the SPIRAL facility using a 10.5 AMeV 20 O beam with an integrated intensity of 1.65 x 10 9 particles and a typical rate of 10 4 pps.…”

“…The bound first-excited state of 21 O was determined to lie at 1.21(4) MeV. As in our earlier work [20,21], the target was also surrounded at 90 • by 4 EXOGAM clover detectors in a close packed geometry (photopeak efficiency, including addback [20], of 10(1)% at 800 keV). The coincident gamma-rays indicated an excitation energy of 1.213 (7) MeV.…”

“…The spectroscopy of 21 O has been investigated using a radioactive 20 O beam and the (d,p) reaction in inverse kinematics. The ground and first excited states have been determined to be J π = 5/2 + and 1/2 + respectively.…”

“…The target was a 0.59 mg/cm 2 thick CD 2 foil. The (d,p) reaction channel was selected using the identification of the beam-like residue in the VAMOS spectrometer and the kinematics of the proton, as measured using the TIARA silicon array [20] from 36 • to 169 • in the laboratory frame. The excitation energy in 21 O and the centre-of-mass (cm) scattering angle were obtained from the measured energy and angle of the recoiling protons.…”

Emergence of theN=16shell gap inO21

What Can We Learn from Transfer, and How Is Best to Do It?

Nuclear physics research at CENS