Heavy ion reaction analyzer (HIRA): a recoil mass separator facility at NSC

Sinha, A. K.; Madhavan, N.; Das, J. J.; Sugathan, P.; Kataria, D. O.; Patro, A.P.; Mehta, Goverdhan

doi:10.1016/0168-9002(94)90191-0

Cited by 103 publications

(96 citation statements)

References 8 publications

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“…The code also generates residue trajectory plots in the dispersive and the non-dispersive planes. As an illustration, we have applied the code for transmission efficiency calculation of the Heavy Ion Reaction Analyzer (HIRA) [2] at IUAC. However, the code, with suitable modification, can be applied to any other recoil separator which uses electromagnetic fields for separation and identification of residues.…”

Section: Introductionmentioning

confidence: 99%

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A Monte Carlo C-code for calculating transmission efficiency of recoil separators and viewing residue trajectories

Nath¹

2008

Computer Physics Communications

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Section: Introductionmentioning

confidence: 99%

mentioning

confidence: 99%

A Monte Carlo C-code for calculating transmission efficiency of recoil separators and viewing residue trajectories

Nath¹

2008

Computer Physics Communications

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“…In order to effectively address these requirements, the HYRA has been designed, fabricated and is being commissioned at IUAC with the capability of being utilized in stand-alone mode or in conjunction with Indian national gamma array (INGA) (http:// www.iuac.ernet.in/research/nuclear physics/INGA/INGA main.html). The design of HYRA is not only unique but is planned to have larger acceptances and rigidities than the earlier recoil mass spectrometer, heavy ion reaction analyzer (HIRA) [5] set up in beam hall I, two decades ago, for studies using pelletron beams.…”

Section: Electromagnetic Configuration Of Hyramentioning

confidence: 99%

Hybrid recoil mass analyzer at IUAC — First results using gas-filled mode and future plans

et al. 2010

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Hybrid recoil mass analyzer (HYRA) is a unique, dual-mode spectrometer designed to carry out nuclear reaction and structure studies in heavy and medium-mass nuclei using gas-filled and vacuum modes, respectively and has the potential to address newer domains in nuclear physics accessible using high energy, heavy-ion beams from superconducting LINAC accelerator (being commissioned) and ECR-based high current injector system (planned) at IUAC. The first stage of HYRA is operational and initial experiments have been carried out using gas-filled mode for the detection of heavy evaporation residues and heavy quasielastic recoils in the direction of primary beam. Excellent primary beam rejection and transmission efficiency (comparable with other gas-filled separators) have been achieved using a smaller focal plane detection system. There are plans to couple HYRA to other detector arrays such as Indian national gamma array (INGA) and 4π spin spectrometer for ER tagged spectroscopic/spin distribution studies and for focal plane decay measurements.

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“…The experiment was performed using Heavy Ion Reaction Analyzer (HIRA) [9] + BGO multiplicity filter [10] facility at IUAC, New Delhi. Pulsed beam of 16 …”

Section: Methodsmentioning

confidence: 99%

Spin distribution as a probe to investigate the dynamical effects in fusion reactions

Kaur

Behera

Singh

et al. 2015

EPJ Web of Conferences

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Heavy ion reaction analyzer (HIRA): a recoil mass separator facility at NSC

Cited by 103 publications

References 8 publications

A Monte Carlo C-code for calculating transmission efficiency of recoil separators and viewing residue trajectories

A Monte Carlo C-code for calculating transmission efficiency of recoil separators and viewing residue trajectories

Hybrid recoil mass analyzer at IUAC — First results using gas-filled mode and future plans

Spin distribution as a probe to investigate the dynamical effects in fusion reactions

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