A compact dication source for Ba2+ tagging and heavy metal ion sensor development

K.E. Navarro; J. Baeza-Rubio; M. Boyd; F.W. Foss; S. Giri; B.J.P. Jones; R.L. Miller; D.R. Nygren; F.J. Samaniego; K. Stogsdill; M.R. Tiscareno; C. Adams; H. Almazán; V. Álvarez; B. Aparicio; A.I. Aranburu; L. Arazi; I.J. Arnquist; S. Ayet; C.D.R. Azevedo; K. Bailey; F. Ballester; M. del Barrio-Torregrosa; A. Bayo; J.M. Benlloch-Rodríguez; F.I.G.M. Borges; S. Bounasser; N. Byrnes; S. Cárcel; J.V. Carrión; S. Cebrián; E. Church; L. Cid; C.A.N. Conde; T. Contreras; F.P. Cossío; E. Dey; G. Díaz; T. Dickel; M. Elorza; J. Escada; R. Esteve; A. Fahs; R. Felkai; L.M.P. Fernandes; P. Ferrario; A.L. Ferreira; E.D.C. Freitas; Z. Freixa; J. Generowicz; A. Goldschmidt; J.J. Gómez-Cadenas; R. González; J. Grocott; R. Guenette; J. Haefner; K. Hafidi; J. Hauptman; C.A.O. Henriques; J.A. Hernando Morata; P. Herrero-Gómez; V. Herrero; C. Hervés Carrete; J. Ho; P. Ho; Y. Ifergan; L. Labarga; L. Larizgoitia; P. Lebrun; F. Lopez; D. Lopez Gutierrez; N. López-March; R. Madigan; R.D.P. Mano; A.P. Marques; J. Martín-Albo; G. Martínez-Lema; M. Martínez-Vara; Z.E. Meziani; K. Mistry; F. Monrabal; C.M.B. Monteiro; F.J. Mora; J. Muñoz Vidal; P. Novella; A. Nuñez; E. Oblak; M. Odriozola-Gimeno; J. Palacio; B. Palmeiro; A. Para; I. Parmaksiz; J. Pelegrin; M. Pérez Maneiro; M. Querol; A.B. Redwine; J. Renner; I. Rivilla; J. Rodríguez; C. Rogero; L. Rogers; B. Romeo; C. Romo-Luque; F.P. Santos; J.M.F. dos Santos; A. Simón; S.R. Soleti; M. Sorel; C. Stanford; J.M.R. Teixeira; J.F. Toledo; J. Torrent; A. Usón; J.F.C.A. Veloso; T.T. Vuong; J. Waiton; J.T. White; The NEXT Collaboration

doi:10.1088/1748-0221/18/07/P07044

Journal of Instrumentation

paper

A compact dication source for Ba²⁺ tagging and heavy metal ion sensor development

K.E. Navarro¹, J. Baeza-Rubio¹, M. Boyd², F.W. Foss², S. Giri¹, B.J.P. Jones¹, R.L. Miller², D.R. Nygren¹, F.J. Samaniego¹, K. Stogsdill¹, M.R. Tiscareno¹, C. Adams³, H. Almazán⁴, V. Álvarez⁵, B. Aparicio⁶, A.I. Aranburu⁷, L. Arazi⁸, I.J. Arnquist⁹, S. Ayet¹⁰, C.D.R. Azevedo¹¹, K. Bailey³, F. Ballester⁵, M. del Barrio-Torregrosa¹², A. Bayo¹³, J.M. Benlloch-Rodríguez¹², F.I.G.M. Borges¹⁴, S. Bounasser⁴, N. Byrnes¹, S. Cárcel¹⁵, J.V. Carrión¹⁵, S. Cebrián¹⁶, E. Church⁹, L. Cid¹³, C.A.N. Conde¹⁴, T. Contreras¹⁷, F.P. Cossío^12,18, E. Dey¹, G. Díaz¹⁹, T. Dickel¹⁰, M. Elorza¹², J. Escada¹⁴, R. Esteve⁵, A. Fahs⁴, R. Felkai^29,8, L.M.P. Fernandes²⁰, P. Ferrario^12,18, A.L. Ferreira¹¹, E.D.C. Freitas²⁰, Z. Freixa^7,18, J. Generowicz¹², A. Goldschmidt²¹, J.J. Gómez-Cadenas^30,12,18, R. González¹², J. Grocott⁴, R. Guenette⁴, J. Haefner¹⁷, K. Hafidi³, J. Hauptman²², C.A.O. Henriques²⁰, J.A. Hernando Morata¹⁹, P. Herrero-Gómez^12,23, V. Herrero⁵, C. Hervés Carrete¹⁹, J. Ho⁴, P. Ho², Y. Ifergan⁸, L. Labarga²⁴, L. Larizgoitia¹², P. Lebrun²⁵, F. Lopez^12,15, D. Lopez Gutierrez⁴, N. López-March¹⁵, R. Madigan², R.D.P. Mano²⁰, A.P. Marques¹⁴, J. Martín-Albo¹⁵, G. Martínez-Lema⁸, M. Martínez-Vara¹², Z.E. Meziani³, K. Mistry¹, F. Monrabal^12,18, C.M.B. Monteiro²⁰, F.J. Mora⁵, J. Muñoz Vidal¹⁵, P. Novella¹⁵, A. Nuñez¹³, E. Oblak¹², M. Odriozola-Gimeno¹², J. Palacio¹³, B. Palmeiro⁴, A. Para²⁵, I. Parmaksiz¹, J. Pelegrin¹², M. Pérez Maneiro¹⁹, M. Querol¹⁵, A.B. Redwine⁸, J. Renner¹⁹, I. Rivilla^12,18, J. Rodríguez⁵, C. Rogero²³, L. Rogers³, B. Romeo¹², C. Romo-Luque¹⁵, F.P. Santos¹⁴, J.M.F. dos Santos²⁰, A. Simón¹², S.R. Soleti¹², M. Sorel¹⁵, C. Stanford⁴, J.M.R. Teixeira²⁰, J.F. Toledo⁵, J. Torrent^12,27, A. Usón¹⁵, J.F.C.A. Veloso¹¹, T.T. Vuong², J. Waiton⁴, J.T. White^31,28 and The NEXT Collaboration

Published 28 July 2023 • © 2023 IOP Publishing Ltd and Sissa Medialab
Journal of Instrumentation, Volume 18, July 2023 Citation K.E. Navarro et al 2023 JINST 18 P07044 DOI 10.1088/1748-0221/18/07/P07044

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¹ Department of Physics, University of Texas at Arlington, Arlington, TX 76019, U.S.A.

² Department of Chemistry and Biochemistry, University of Texas at Arlington, Arlington, TX 76019, U.S.A.

³ Argonne National Laboratory, Argonne, IL 60439, U.S.A.

⁴ Department of Physics and Astronomy, Manchester University, Manchester. M13 9PL, U.K.

⁵ Instituto de Instrumentación para Imagen Molecular (I3M), Centro Mixto CSIC — Universitat Politècnica de València, Camino de Vera s/n, Valencia, E-46022, Spain

⁶ Department of Organic Chemistry I, University of the Basque Country (UPV/EHU), Centro de Innovación en Química Avanzada (ORFEO-CINQA), San Sebastián / Donostia, E-20018, Spain

⁷ Department of Applied Chemistry, Universidad del Pais Vasco (UPV/EHU), Manuel de Lardizabal 3, San Sebastián / Donostia, E-20018, Spain

⁸ Unit of Nuclear Engineering, Faculty of Engineering Sciences, Ben-Gurion University of the Negev, P.O.B. 653, Beer-Sheva, 8410501, Israel

⁹ Pacific Northwest National Laboratory (PNNL), Richland, WA 99352, U.S.A.

¹⁰ II. Physikalisches Institut, Justus-Liebig-Universitat Giessen, Giessen, Germany

¹¹ Institute of Nanostructures, Nanomodelling and Nanofabrication (i3N), Universidade de Aveiro, Campus de Santiago, Aveiro, 3810-193, Portugal

¹² Donostia International Physics Center, BERC Basque Excellence Research Centre, Manuel de Lardizabal 4, San Sebastián / Donostia, E-20018, Spain

¹³ Laboratorio Subterráneo de Canfranc, Paseo de los Ayerbe s/n, Canfranc Estación, E-22880, Spain

¹⁴ LIP, Department of Physics, University of Coimbra, Coimbra, 3004-516, Portugal

¹⁵ Instituto de Física Corpuscular (IFIC), CSIC & Universitat de València, Calle Catedrático José Beltrán, 2, Paterna, E-46980, Spain

¹⁶ Centro de Astropartículas y Física de Altas Energías (CAPA), Universidad de Zaragoza, Calle Pedro Cerbuna, 12, Zaragoza, E-50009, Spain

¹⁷ Department of Physics, Harvard University, Cambridge, MA 02138, U.S.A.

¹⁸ Ikerbasque (Basque Foundation for Science), Bilbao, E-48009, Spain

¹⁹ Instituto Gallego de Física de Altas Energías, Universidade de Santiago de Compostela, Campus sur, Rúa Xosé María Suárez Núñez, s/n, Santiago de Compostela, E-15782, Spain

²⁰ LIBPhys, Physics Department, University of Coimbra, Rua Larga, Coimbra, 3004-516, Portugal

²¹ Lawrence Berkeley National Laboratory (LBNL), 1 Cyclotron Road, Berkeley, CA 94720, U.S.A.

²² Department of Physics and Astronomy, Iowa State University, Ames, IA 50011-3160, U.S.A.

²³ Centro de Física de Materiales (CFM), CSIC & Universidad del Pais Vasco (UPV/EHU), Manuel de Lardizabal 5, San Sebastián / Donostia, E-20018, Spain

²⁴ Departamento de Física Teórica, Universidad Autónoma de Madrid, Campus de Cantoblanco, Madrid, E-28049, Spain

²⁵ Fermi National Accelerator Laboratory, Batavia, IL 60510, U.S.A.

²⁶ Department of Physics, University of Texas at El Paso, El Paso, TX 79968, U.S.A.

²⁷ Escola Politècnica Superior, Universitat de Girona, Av. Montilivi, s/n, Girona, E-17071, Spain

²⁸ Department of Physics and Astronomy, Texas A&M University, College Station, TX 77843-4242, U.S.A.

Author notes

²⁹ Now at Weizmann Institute of Science, Israel.

³⁰ NEXT Spokesperson.

³¹ Deceased.

Dates

Received 10 March 2023
Accepted 17 July 2023
Published 28 July 2023

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Abstract

We present a tunable metal ion beam that delivers controllable ion currents in the picoamp range for testing of dry-phase ion sensors. Ion beams are formed by sequential atomic evaporation and single or multiple electron impact ionization, followed by acceleration into a sensing region. Controllability of the ionic charge state is achieved through tuning of electrode potentials that influence the retention time in the ionization region. Barium, lead, and cadmium samples have been used to test the system, with ion currents identified and quantified using a quadrupole mass analyzer. Realization of a clean Ba²⁺ ion beam within a bench-top system represents an important technical advance toward the development and characterization of barium tagging systems for neutrinoless double beta decay searches in xenon gas. This system also provides a testbed for investigation of novel ion sensing methodologies for environmental assay applications, with dication beams of Pb²⁺ and Cd²⁺ also demonstrated for this purpose.

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