Your search keyword '"Lica, Razvan"' showing total 8 results

1. Observation of the radiative decay of the ${}^{229}\mathrm{Th}$ nuclear clock isomer

Author

Kraemer, Sandro, Moens, Janni, Athanasakis-Kaklamanakis, Michail, Bara, Silvia, Beeks, Kjeld, Chhetri, Premaditya, Chrysalidis, Katerina, Claessens, Arno, Cocolios, Thomas E., Correia, João M., De Witte, Hilde, Ferrer, Rafael, Geldhof, Sarina, Heinke, Reinhard, Hosseini, Niyusha, Huyse, Mark, Köster, Ulli, Kudryavtsev, Yuri, Laatiaoui, Mustapha, Lica, Razvan, Magchiels, Goele, Manea, Vladimir, Merckling, Clement, Pereira, Lino M. C., Raeder, Sebastian, Schumm, Thorsten, Sels, Simon, Thirolf, Peter G., Tunhuma, Shandirai Malven, Bergh, Paul Van Den, Van Duppen, Piet, Vantomme, André, Verlinde, Matthias, Villarreal, Renan, and Wahl, Ulrich

Subjects

Nuclear Experiment

Abstract

The nucleus of the radioisotope thorium-229 (${}^{229}$Th) features an isomer with an exceptionally low excitation energy that enables direct laser manipulation of nuclear states. For this reason, it is a leading candidate for use in next-generation optical clocks. This nuclear clock will be a unique tool, amongst others, for tests of fundamental physics. While first indirect experimental evidence for the existence of such an extraordinary nuclear state is significantly older, the proof of existence has been delivered only recently by observing the isomer's electron conversion decay and its hyperfine structure in a laser spectroscopy study, revealing information on the isomer's excitation energy, nuclear spin and electromagnetic moments. Further studies reported the electron conversion lifetime and refined the isomer's energy. In spite of recent progress, the isomer's radiative decay, a key ingredient for the development of a nuclear clock, remained unobserved. In this Letter, we report the detection of the radiative decay of this low-energy isomer in thorium-229 (${}^{229\mathrm{m}}$Th). By performing vacuum-ultraviolet spectroscopy of ${}^{229\mathrm{m}}$Th incorporated into large-bandgap CaF${}_2$ and MgF${}_2$ crystals at the ISOLDE facility at CERN, the photon vacuum wavelength of the isomer's decay is measured as 148.71(42) nm, corresponding to an excitation energy of 8.338(24) eV. This value is in agreement with recent measurements, and decreases the uncertainty by a factor of seven. The half-life of ${}^{229\mathrm{m}}$Th embedded in MgF${}_2$ is determined to be 670(102) s. The observation of the radiative decay in a large-bandgap crystal has important consequences for the design of a future nuclear clock and the improved uncertainty of the energy eases the search for direct laser excitation of the atomic nucleus.

Published

2022

2. Development of a plastic scintillator based and SiPM readout detector for high-precision fast-timing measurements at rosphere array

Author

Neacşu, Cătălin, Turturică, Andrei, Borcea, Ruxandra, Costache, Cristian, Lică, Răzvan, Marginean, Nicolae, Mihai, Constantin, Pascovici, George, Stoica, Alexandru, Turturică, Gabriel, and Ujeniuc, Sorin

Published

2024

3. Observation of the radiative decay of the 229Th nuclear clock isomer

Author

Kraemer, Sandro, Moens, Janni, Athanasakis-Kaklamanakis, Michail, Bara, Silvia, Beeks, Kjeld, Chhetri, Premaditya, Chrysalidis, Katerina, Claessens, Arno, Cocolios, Thomas E., Correia, João G. M., Witte, Hilde De, Ferrer, Rafael, Geldhof, Sarina, Heinke, Reinhard, Hosseini, Niyusha, Huyse, Mark, Köster, Ulli, Kudryavtsev, Yuri, Laatiaoui, Mustapha, Lica, Razvan, Magchiels, Goele, Manea, Vladimir, Merckling, Clement, Pereira, Lino M. C., Raeder, Sebastian, Schumm, Thorsten, Sels, Simon, Thirolf, Peter G., Tunhuma, Shandirai Malven, Van Den Bergh, Paul, Van Duppen, Piet, Vantomme, André, Verlinde, Matthias, Villarreal, Renan, and Wahl, Ulrich

Published

2023

4. A miniaturized low-power SiPM-based [formula omitted] detector for the ISOLDE Fast Tapestation

Author

Neacşu, Cătălin, Lică, Răzvan, Pascovici, George, Mihai, Constantin, and Rothe, Sebastian

Published

2022

5. A Thermal Sublimation Generator of 131mXe

Author

Kulesz, Karolina, primary, Azaryan, Nikolay, additional, Baranowski, Mikołaj, additional, Chojnacki, Mateusz Jerzy, additional, Köster, Ulli, additional, Lica, Razvan, additional, Pascu, Sorin Gabriel, additional, Jolivet, Renaud Blaise, additional, and Kowalska, Magdalena, additional

Published

2022

6. Nuclear Structure Investigations in Yb isotopes

Author

Zyriliou, Aikaterini, primary, Mertzimekis, Theo J., additional, Chalil, Achment, additional, Vasileiou, Polytimos, additional, Pelonis, Stefanos, additional, Efstathiou, Margarita, additional, Stan, Lucian, additional, Turturica, Andrei, additional, Costache, Cristian, additional, Mihai, Radu, additional, Borcea, Ruxandra, additional, Ujeniuc, Sorin, additional, Toma, Sebastian, additional, Clisu, Cristina, additional, Oprea, Andreea, additional, Ionescu, Alina, additional, Gheorghe, Ioana, additional, Boromiza, Marian, additional, Mihai, Constantin, additional, Sotty, Christophe, additional, Nita, Christina, additional, Marginean, Nicolae, additional, Marginean, Raluca, additional, Florea, Nicoleta, additional, Dinescu, Irina, additional, Bucurescu, Dorel, additional, Filipescu, Dan, additional, Lica, Razvan, additional, Stroe, Lucian, additional, and Suvaila, Rares, additional

Published

2022

7. Study of the radiative decay of the low-energy isomer in $^{229}$Th

Author

Chhetri, Premaditya, Bara, Silvia, Beeks, Kjeld, Bernerd, Cyril, Block, Michael, Claessens, Arno, Cocolios, Thomas Elias, Martins Correia, João Guilherme, Granadeiro Costa, Angelo Rafael, Cottenier, Stefaan, DE Witte, Hilde, Ferrer, Rafael, Geldhof, Sarina, Ivandikov, Fedor, Koudriavtsev, Yuri, Koester, Ulli, Kraemer, Sandro, Laatiaoui, Mustapha, Lica, Razvan, Magchiels, Goele, Moens, Janni, Moore, Iain, Pereira, Lino, Raeder, Sebastian, Reponen, Mikael, Rothe, Sebastian, de Roubin, Antoine, Schumm, Thorsten, Sels, Simon, Thirolf, Peter, Tunhuma, Shandirai Malven, Van Den Bergh, Paul, Van Duppen, Piet, Vantomme, André, Villarreal, Renan, and Wahl, Ulrich

Subjects

Detectors and Experimental Techniques

Published

2022

8. A Thermal Sublimation Generator of $^{131 \textrm{m}}$Xe

Author

Kulesz, Karolina, Azaryan, Nikolay, Baranowski, Mikołaj, Chojnacki, Mateusz Jerzy, Köster, Ulli, Lica, Razvan, Pascu, Sorin Gabriel, Jolivet, Renaud Blaise, and Kowalska, Magdalena

Subjects

Detectors and Experimental Techniques

Abstract

Stable and unstable isotopes of the heavy noble gas xenon find use in various medical applications. However, apart from $^{133}$Xe, used for Single Photon Emission Computed Tomography, radioactive isotopes of xenon are currently complicated to obtain in small quantities. With the GAMMA-MRI project in mind, we investigated a thermal sublimation generator of the long-lived excited state (isomer) $^{131 \textrm{m}}$Xe. This production method utilized the decay of $^{131}$I, obtained commercially from a hospital supplier in the form of Na131I powder. Heat treatments of the Na $^{131}$I powder and cryogenic trapping of released $^{131 \textrm{m}}$Xe allowed us to collect up to 88% of the produced xenon. Our method provides an isomeric mixture of $^{131 \textrm{m}}$Xe and $^{131}$Xe. With improvements in scalability and chemical purification, this method could be a cost-effective source of $^{131 \textrm{m}}$Xe for small-scale experiments.

Published

2022