1 / 31

TRI m P presentatie voor KVI medewerkers 14 februari 2002 Klaus Jungmann Ad van den Berg

TRI m P presentatie voor KVI medewerkers 14 februari 2002 Klaus Jungmann Ad van den Berg Sytze Brandenburg. Services to external & internal users. AGOR. €. Others EU. €. €. Projectruimte. Programs/Projects AGOR Nuclear Structure and its Implications for Astrophysics

cira
Download Presentation

TRI m P presentatie voor KVI medewerkers 14 februari 2002 Klaus Jungmann Ad van den Berg

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. TRImP presentatie voor KVI medewerkers 14 februari 2002 Klaus Jungmann Ad van den Berg Sytze Brandenburg

  2. Services to external & internal users AGOR € Others EU € ... € ... Projectruimte • Programs/Projects • AGOR • Nuclear Structure and its • Implications for Astrophysics • Interacting Hadrons • TRImP • ..... People € € € The KVI “company” Two main products: * good science* education of people

  3. TRImPTrappedRadioactiveIsotopes:microlaboratoriesfor FundamentalPhysics Theory Nuclear Physics Atomic Physics Experiment Nuclear Physics funding: people : G. Berg, P. Dendooven, O. Dermois, M. Harakeh, R. Hoekstra, S. Hoekstra, K. Jungmann, S. Kopecky, R. Morgenstern, R. Rogachevsky, R. Timmermans, E. Traykov, S. Umakanth, M. van Veenhuizen, H. Warringa, L. Willmann, H. Wilschut + many more project  program 2001 2013

  4. TRImP Goals of TRImP • Study fundamental interactions using radioactive isotopes • in traps • A facility will be created for in house and outside users General Time Lines • Project started 2001; setup facility in 4 years • TRImP became a managed program in July 2001 • Exploitation of facility until 2013 • TRImP will evolve into a 50% user of AGOR • Midterm review in 2008

  5. TRImP Particle Physics Nuclear Physics Atomic Physics

  6. TRImP Low Energies & Precision Measurement High Energies & direct observations Possibilities to Test New Models 

  7. TRImP Some Questions related to TRImP Physics • Origin of Parity Violation in Weak Interactions •  details of b-decays • Na, Ne isotopes • (nature prefers lefthandedness) • Dominance of Matterover Antimatter in Universe ? • CP - Violation, Time Reversal Symmetry, Parity Violation •  permanent electric dipole moments ? • Ra isotopes

  8. TRImP Some Weak Interaction Experiments Experiments on b-Decays in Traps b-n correlations6He,14O, 19Ne, 35Ar, 38mKGANIL,ANL,LBNL, ISOLDE,TRIUMF, KVI b- asymmetry19Ne, 20Na, 21Na, 37K, 82Rb LBNL,TRIUMF, LANL, KVI inclusive 6He, 32Ar ISOLDE/Seattle, Leuven, measurementsGANIL a lot of activity  concentrate on your strength Experiments on Parity Violation in Traps Atomic parity 210Fr, 211Fr Stony Brook, JILA, violation INFN

  9. TRImP • Precision Experiments different in type from • most previous Nuclear Physics Experiments •  Most difficult part starts after isotopes are • produced and trapped • Advantages of KVI •  Sufficient beam made available for • optimizing experiments  Unique combination offacilities and experienced people

  10. TRImP TRImP • TRImP Organization (Physics) • Program leader: K. Jungmann TRImP management: H. Wilschut • KVI Staff Experimentalists: • G.P. Berg, P. Dendooven, O. Demois, M.N. Harakeh, R. Hoekstra, K. Jungmann, • R. Morgenstern, L. Willmann, H. Wilschut(focus: b-decays, edm‘s; ground work) • KVI Staff Theorists: • A. Dieperink, O. Scholten, R. Timmermans • Postdocs: • S. Kopecky, + offer + N.N. • PhD Students: • V. Kravchuk, E. Traykov, D. Umakanth, + N.N. ‘s • Master Students: • A. Rogachewskiy,M. van Veenhuizen, H. Waringa • External Experimentalists: • A. Young , NIPNET (H. Wilschut coordinator) , ION CATCHER, • new in discussions: NIKHEF(neutrino mass) ,PARIS(parity violation)

  11. TRImP TRImP Organization (Technical) •Separator (design stage) project leader: Otto Dermois /Georg Berg ass. proj. lead: Harry Kiewiet slow control : Dick Damstra design: Lambertus Slatius vaccum: Harry Timersma

  12. TRImP TRImP Organization (Technical) •Separator • MOT & Laser Laboratory (design stage) (design stage) project leader: Otto Dermois /Georg Berg project leader: Lorenz Willmann ass. proj. lead: Harry Kiewiet ass. proj. lead: Jan Mulder slow control : Dick Damstra slow control : Henk van der Duin design: Lambertus Slatius design: Bastian Duinsveld vaccum: Harry Timersma vaccum: Henk Gorter optics&lasers: Hassan Karaer

  13. TRImP TRImP Organization (Technical) •Separator • MOT & Laser Laboratory (design stage) (design stage) project leader: Otto Dermois /Georg Berg project leader: Lorenz Willmann ass. proj. lead: Harry Kiewiet ass. proj. lead: Jan Mulder slow control : Dick Damstra slow control : Henk van der Duin design: Lambertus Slatius design: Bastian Duinsveld vaccum: Harry Timersma vaccum: Henk Gorter optics&lasers: Hassan Karaer • RFQ cooler and LEB (design stage) project leader : Lorenz Willmann ass. proj. lead: N.N. slow control : Peter Kroon design: Lambertus Slatius vaccum: Henk Gorter electronics: Marteen Stokroos

  14. TRImP TRImP Organization (Technical) •Separator • MOT & Laser Laboratory (design stage) (design stage) project leader: Otto Dermois /Georg Berg project leader: Lorenz Willmann ass. proj. lead: Harry Kiewiet ass. proj. lead: Jan Mulder slow control : Dick Damstra slow control : Henk van der Duin design: Lambertus Slatius design: Bastian Duinsveld vaccum: Harry Timersma vaccum: Henk Gorter optics&lasers: Hassan Karaer • RFQ cooler and LEB•Infrastructure (design stage) (design stage ) project leader : Lorenz Willmann project leader: Harry Kiewiet ass. proj. lead: N.N. radiation safety: Hans Beijers slow control : Peter Kroon design: Bastian Duinsveld design: Lambertus Slatius building services: Jans Sijbring vaccum: Henk Gorter cooling: Steven van der Veen electronics: Marteen Stokroos electro-technics: Piet Wieringa

  15. TRImP TRImP Organization (Technical) •Separator • MOT & Laser Laboratory (design stage) (design stage) project leader: Otto Dermois /Georg Berg project leader: Lorenz Willmann ass. proj. lead: Harry Kiewiet ass. proj. lead: Jan Mulder slow control : Dick Damstra slow control : Henk van der Duin design: Lambertus Slatius design: Bastian Duinsveld vaccum: Harry Timersma vaccum: Henk Gorter optics&lasers: Hassan Karaer • RFQ cooler and LEB•Infrastructure (design stage) (design stage ) project leader : Lorenz Willmann project leader: Harry Kiewiet ass. proj. lead: N.N. radiation safety: Hans Beijers slow control : Peter Kroon design: Bastian Duinsveld design: Lambertus Slatius building services: Jans Sijbring vaccum: Henk Gorter cooling: Steven van der Veen electronics: Marteen Stokroos electro-technics: Piet Wieringa •Cryo target (orientaton phase) project leader : Hans Wilschut N.N.

  16. TRImP Combined Fragment and Gas Filled Recoil Separator G. Berg O. Dermois L. Slatius 2001

  17. TRImP beam of radioactive isotopes to decelerator and traps target position in recoil-separator mode target position in fragment separator mode Primary beam from AGOR cyclotron Combined Fragment and Recoil Separator

  18. TRImP

  19. TRImP RFQ The Wall Separator Hall Cooling and Trapping Hall variety of traps

  20. TRImP • TRImP needs • Setup of the separator, targets and particle deceleration • position in hall (solved) • power supplies • cooling • vacuum • beam diagnostics • radiation safety • Shutdown(s) to install hardware • AGOR to provide the right beams at high • Setup of the traps and lasers • precision optics & electronics • laser laboratory • safety • Variety of auxiliary experiments • spectroscopy • gas stopping • particle production Full design report available soon!

  21. TRImP FirstTRImPTests with beam 15N +205Tl  213Ra + 7n Au Hg Tl Bi Po At Rn fitted x-ray spectra 213Fr Ra Fr x-rays N x-ray counts [arb.] CTlC extracted Fr x-rays raw data x-ray energy [channels] A. Rogachevsky, H. Wilschut, S. Kopecky, V. Kravchuk, K. Jungmann + AGOR team

  22. TRImP RFQ blueprints - no glossy pictures yet

  23. TRImP Laser beam ~1 million Na atoms Temperature < 1 mK atoms cold atoms Magneto-Optical Trap (MOT) How works the MOT?

  24. TRImP Diode Laser Hardware & Electronics • First Laser • mechanical parts ready • precision electronics • in design stage First photons from the device expected in laser lab next week

  25. TRImP

  26. TRImP • Time Schedule • Project started 2001 • Program approved July 2001 • Separator, Cooler, RFQ, Optics Laboratory • Orientation Phase in 2001 - now in Design Phase • Separator ready for bids - contract expected June 2002 • Magnet delivery July 2003 • Separator Setup and Commisioning 2003/2004 •  A. van den Berg • Ready for Experiments End 2004 • In the mean time: Preparatory Experiments, • Isotope Production,Gas Stopping,Cooling, RFQ, spectroscopy, ... • Cyclotron “adjustments”  S. Brandenburg

  27. TRImP • TRImP depends on Your • Expertise • Support • Input • Criticism • Ideas • Thank You !

  28. NOW WE REALLY START

More Related