Laser Ionization and Spectroscopy of Actinide elements (LISA)
Päärahoittaja
Rahoittajan antama koodi/diaarinumero: 861198
Päärahoittajan myöntämä tuki (€)
- 280 805,76
Rahoitusohjelma
Hankkeen aikataulu
Hankkeen aloituspäivämäärä: 01.11.2019
Hankkeen päättymispäivämäärä: 31.10.2023
Tiivistelmä
The LISA (Laser Ionisation and Spectroscopy of Actinides) consortium aims to bring together world-leading experts in radioactive ion beam research and applications, laser spectroscopy, scientific laser technologies and atomic theorists with the goal of vastly improving our understanding of the atomic and nuclear properties of the chemical elements known as the actinides. In addition to the value of this activity for the fields of fundamental atomic and nuclear physics, broadly speaking, knowledge of the nuclear properties of any isotope is a pre-requisite for its practical applications, whilst the atomic properties of the element govern its chemical behaviour and are crucial to its identification and handling.
The actinides, which are located towards the end of Mendeleyev’s table, offer some of the most exciting and challenging opportunities for multidisciplinary science: fundamental nuclear structure research, astrophysics, atomic physics and chemistry. Applications derived from basic research have an important impact on our daily lives. The actinides in particular have been highlighted as a key performance indicator within the nuclear fuel cycle and are of great interest in the field of innovative medical treatment and diagnosis using radioisotopes.
Led by several of the most accomplished researchers in this field, LISA will recruit and train 15 early stage researchers (ESR) at the some of the best universities, research facilities and most innovative companies in Europe. Our collaboration partners outside of Europe will participate in training and host ESR secondments, giving the project a global presence. By developing and applying novel methods and apparatus to overcome the various technical challenges for actinide research, LISA will continue the recent momentum in this field and address the breadth of missing knowledge of these elements.
The actinides, which are located towards the end of Mendeleyev’s table, offer some of the most exciting and challenging opportunities for multidisciplinary science: fundamental nuclear structure research, astrophysics, atomic physics and chemistry. Applications derived from basic research have an important impact on our daily lives. The actinides in particular have been highlighted as a key performance indicator within the nuclear fuel cycle and are of great interest in the field of innovative medical treatment and diagnosis using radioisotopes.
Led by several of the most accomplished researchers in this field, LISA will recruit and train 15 early stage researchers (ESR) at the some of the best universities, research facilities and most innovative companies in Europe. Our collaboration partners outside of Europe will participate in training and host ESR secondments, giving the project a global presence. By developing and applying novel methods and apparatus to overcome the various technical challenges for actinide research, LISA will continue the recent momentum in this field and address the breadth of missing knowledge of these elements.
Vastuullinen johtaja
Muut hankkeeseen liittyvät henkilöt (JYU)
Päävastuullinen yksikkö
Seurantakohteet
Profiloitumisalue: Kiihdytinfysiikka ja subatomäärinen fysiikka (Jyväskylän yliopisto JYU)
Liittyvät julkaisut ja muut tuotokset
- Charge radii of thallium isotopes near the 𝑁=126 shell closure (2024) IDS Collaboration; A1; OA
- Detailed structure of 131Sn populated in the 𝛽 decay of isomerically purified 131In states (2024) Benito, J.; et al.; A1; OA
- Direct high-precision measurement of the mass difference of 77As–77Se related to neutrino mass determination (2024) Ge, Z.; et al.; A1; OA
- First investigation on the isomeric ratio in multinucleon transfer reactions : Entrance channel effects on the spin distribution (2024) Kumar, D.; et al.; A1; OA
- High-Precision Mass Measurements of Neutron Deficient Silver Isotopes Probe the Robustness of the N=50 Shell Closure (2024) Ge, Zhuang; et al.; A1; OA
- Magnetic moments of thallium isotopes in the vicinity of magic N = 126 (2024) Yue, Z.; et al.; A1; OA
- Mass measurements in the 132Sn region with the JYFLTRAP double Penning trap mass spectrometer (2024) Beliuskina, O.; et al.; A1; OA
- Precision mass measurements in the zirconium region pin down the mass surface across the neutron midshell at N = 66 (2024) Hukkanen, M.; et al.; A1; OA
- Radiative lifetime of the 𝐴2Π1/2 state in RaF with relevance to laser cooling (2024) Athanasakis-Kaklamanakis, M.; et al.; A1; OA
- Reinvestigation of 91Sr and 95Y atomic masses using the JYFLTRAP Penning trap (2024) Jaries, A.; et al.; A1; OA