High intensity vanadium beam for synthesis of new superheavy elements with well-controlled emittance by using “slit triplet”

To provide a very powerful vanadium (V) beam with an intensity of at least 6 particle μA for synthesizing a new superheavy element (SHE) with atomic number Z = 119, we have developed a high-temperature oven (HTO) system to evaporate the metallic V powder inside the new superconducting (SC) electron...

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Veröffentlicht in:	Review of scientific instruments 2020-02, Vol.91 (2), p.023318-023318
Hauptverfasser:	Nagatomo, T., Higurashi, Y., Ohnishi, J., Uchiyama, A., Fujimaki, M., Kumagai, K., Fukunishi, N., Sakamoto, N., Nakagawa, T., Kamigaito, O.
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Sprache:	eng
Schlagworte:	Acceleration Atomic properties Continuous beams Cyclotrons Emittance High temperature Ion sources Power Scientific apparatus & instruments Slits Synthesis Vanadium
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container_title	Review of scientific instruments
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creator	Nagatomo, T. Higurashi, Y. Ohnishi, J. Uchiyama, A. Fujimaki, M. Kumagai, K. Fukunishi, N. Sakamoto, N. Nakagawa, T. Kamigaito, O.
description	To provide a very powerful vanadium (V) beam with an intensity of at least 6 particle μA for synthesizing a new superheavy element (SHE) with atomic number Z = 119, we have developed a high-temperature oven (HTO) system to evaporate the metallic V powder inside the new superconducting (SC) electron cyclotron ion source. We successfully extracted a V13+ beam with a maximum beam intensity of 600 eμA with 2.8-kW microwave power and 900-W heating power of the HTO. Furthermore, from a systematic study of the dependence of the beam intensity on the microwave power and the HTO power, we successfully produced a V13+ beam of 300 eμA at a consumption rate of 3 mg/h, allowing a one-month duration continuous beam to carry out the SHE synthesis. In addition, to avoid serious damage to newly introduced SC acceleration cavities by beam losses, the beam should be transported with a well-controlled emittance. To efficiently limit the beam emittance, we employed a slit triplet consisting of three pairs of slits installed around the focus point of the low-energy beam transport. The first result of the emittance reduction was observed by a pepper-pot type emittance meter as a function of the acceptance of the slit triplet.
doi_str_mv	10.1063/1.5130431
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We successfully extracted a V13+ beam with a maximum beam intensity of 600 eμA with 2.8-kW microwave power and 900-W heating power of the HTO. Furthermore, from a systematic study of the dependence of the beam intensity on the microwave power and the HTO power, we successfully produced a V13+ beam of 300 eμA at a consumption rate of 3 mg/h, allowing a one-month duration continuous beam to carry out the SHE synthesis. In addition, to avoid serious damage to newly introduced SC acceleration cavities by beam losses, the beam should be transported with a well-controlled emittance. To efficiently limit the beam emittance, we employed a slit triplet consisting of three pairs of slits installed around the focus point of the low-energy beam transport. 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We successfully extracted a V13+ beam with a maximum beam intensity of 600 eμA with 2.8-kW microwave power and 900-W heating power of the HTO. Furthermore, from a systematic study of the dependence of the beam intensity on the microwave power and the HTO power, we successfully produced a V13+ beam of 300 eμA at a consumption rate of 3 mg/h, allowing a one-month duration continuous beam to carry out the SHE synthesis. In addition, to avoid serious damage to newly introduced SC acceleration cavities by beam losses, the beam should be transported with a well-controlled emittance. To efficiently limit the beam emittance, we employed a slit triplet consisting of three pairs of slits installed around the focus point of the low-energy beam transport. 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The first result of the emittance reduction was observed by a pepper-pot type emittance meter as a function of the acceptance of the slit triplet.</abstract><cop>United States</cop><pub>American Institute of Physics</pub><pmid>32113411</pmid><doi>10.1063/1.5130431</doi><tpages>6</tpages></addata></record>
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subjects	Acceleration Atomic properties Continuous beams Cyclotrons Emittance High temperature Ion sources Power Scientific apparatus & instruments Slits Synthesis Vanadium
title	High intensity vanadium beam for synthesis of new superheavy elements with well-controlled emittance by using “slit triplet”
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