Name: LISA Specialized Training 1 - Nuclear chemical techniques and laser resonance Ionization laboratory training (LISA specialized training)
Start: 2021-06-07T08:00:00+02:00
End: 2021-06-11T14:00:00+02:00
Location: Hybrid event

LISA Specialized Training 1 - Nuclear chemical techniques and laser resonance Ionization laboratory training (LISA specialized training)

from Monday 7 June 2021 (08:00) to Friday 11 June 2021 (14:00)

Monday 7 June 2021

09:00 Welcome
Welcome
09:00 - 09:30
09:30 Actinides - The Basics - Christoph Düllmann
Actinides - The Basics
- Christoph Düllmann
09:30 - 10:45
Christoph E. Düllmann1,2,3 1 Johannes Gutenberg University Mainz, Germany 2 GSI Helmholtzzentrum für Schwerionenforschung, Darmstadt, Germany 3 Helmholtz Institute Mainz, Germany The elements with atomic numbers 89-103 form the actinide series – central to the LISA innovative training network. In this lecture I will discuss basics aspects of the actinides, using their discoveries as the basic theme for introducing each of these elements individually. I will also discuss their current availability, as well as their production in research reactors, at accelerators and in cosmological processes.
10:45 Coffee break
Coffee break
10:45 - 11:00
11:00 Actinides - The Basics - Christoph Düllmann
Actinides - The Basics
- Christoph Düllmann
11:00 - 12:30
12:30 Lunch break
Lunch break
12:30 - 14:00
14:00 Ultra Trace Determination of Minor Actinides by Laser Mass Spectrometry - Klaus Wendt (University of Mainz) Sebastian Raeder (GSI)
Ultra Trace Determination of Minor Actinides by Laser Mass Spectrometry
- Klaus Wendt (University of Mainz)
- Sebastian Raeder (GSI)
14:00 - 15:45
Klaus Wendt Institute of Physics, Johannes Gutenberg-University Mainz, D-55099 Mainz, Germany E-mail: Klaus.Wendt@uni-mainz.de Plutonium and the so-called minor actinides Neptunium, Americium, Curium, Berkelium and Californium are considered to be within the most dangerous radiotoxic elements on earth. They are produced in rather large quantities in nuclear reators, during nuclear explosions and in accidents and their unambigious and sensitive radiometric detection is often hampered by backgrorund or interferences in their  ddecay spectra. Apart of their radiotoxicity in the environment they also serve as highly sensitive tracers for dedicated geological, astrophysical and increasingly also bio-medical studies. To form a very sensitive and highly selective technique, multi-step resonant laser ionization using tunable lasers is coupled to well adapted mass spectrometric devices. Full suppression of isobaric interferences, resolution of isotopic composition and the high ionization efficiency of these resonance ionization mass spectrometers (RIMS) ensures lowest detection limits and significance of the results. E.g. for Pu, isotope content and composition in environmental samples with LODs as low as 105 atoms, corresponding to activity levels in the µBq range, are reported. K. Wendt, N. Trautmann, Int. J. Mass Spectrom. 242, 161 (2005)
15:45 Coffee break
Coffee break
15:45 - 16:00
16:00 Safety Training - Christian Gorges (University of Mainz)
Safety Training
- Christian Gorges (University of Mainz)
16:00 - 16:30
16:30

16:30 - 17:30

19:30 Social
Social
19:30 - 21:00
Tuesday 8 June 2021

09:00

09:00 - 12:30

12:30 Lunch Break
Lunch Break
12:30 - 14:00

14:00

14:00 - 17:30

Supervisory Board
Supervisory Board
14:00 - 15:30
https://cern.zoom.us/j/5912925154?pwd=TEVwOWNuNnIrOHEvYmxkU1FZK0Rxdz09

19:00 PhD to Sciencepreneur
PhD to Sciencepreneur
19:00 - 21:30
Explore your entrepreneurial strengths and meet our role models, who share the challenges and opportunities of becoming an entrepreneur or intrapreneur. Role Models: Christian Els, CEO and Co-Founder Sentin, https://sentin.ai/ and Juris Ulmanis (Quantum physicist Entrepreneur, Innovator). Please register here for this event : https://falling-walls.com/yes/webinar/from-phd-to-sciencepreneur-uni-mainz-08-06-2021/apply/. Then you will receive the zoom link in advance from Falling walls.
Wednesday 9 June 2021

09:00

09:00 - 12:30

12:30 Lunch break
Lunch break
12:30 - 14:00

14:00 Tour of TRIGA / Cyclotron
Tour of TRIGA / Cyclotron
14:00 - 15:00

15:00

15:00 - 18:30
Thursday 10 June 2021

09:00

09:00 - 12:30

12:30 Lunch break
Lunch break
12:30 - 14:00
14:00 Investigation of atomic properties using ion mobility spectrometry - Mustapha Laatiaoui (GSI/HIM)
Investigation of atomic properties using ion mobility spectrometry
- Mustapha Laatiaoui (GSI/HIM)
14:00 - 15:45
"Gas chromatographs and ion mobility spectrometers are as ubiquitous in industrial plants as they are in homeland security at airports for detecting dangerous gases, explosives and drugs. They are also used in fundamental research such as in analytics and biochemistry. Less well known is the application of ion mobility spectrometry in atomic physics. The goal of this lecture is to introduce students to ion mobility spectrometry as a method for studying the atomic properties of the heaviest elements, with a view to its use as a tool for isobaric separation and laser spectroscopy of the transactinides."
15:45 Coffee break
Coffee break
15:45 - 16:00
16:00 Science communication - Beate Hoerr
Science communication
- Beate Hoerr
16:00 - 17:30
This short session is part of a soft-skills training which will equip you with the tools and experience necessary to maximize both your employability and your ability to transfer your acquired knowhow in your future endeavours. To do so, we would like to address and work on in our seminar about “Science Communication and Networking” the following issues: - How to present your own research or business profile concisely, generating interest - How to present your ideas in a nutshell? Training of the method “Elevator pitch” or “elevator speech”. - Writing effective and exciting e-mails in the science context: Do's and Dont's. After a short introduction we will work in groups and train some methods presented. A short discussion, a wrap up and a feedback loop will close the seminar.
19:30 Social
Social
19:30 - 20:30
Friday 11 June 2021

09:00

09:00 - 12:30

12:30

12:30 - 13:00