ECT* - The interplay between atomic and nuclear physics, Trento 2015 Laser Spectroscopy of 100-130 Cd: Simple Trends in Complex Nuclei D. T. Yordanov for.

Slides:

Advertisements

Similar presentations

HIGS2 Workshop June 3-4, 2013 Nuclear Structure Studies at HI  S Henry R. Weller The HI  S Nuclear Physics Program.

Advertisements

MINIBALL g-ray Spectroscopy far from Stability

Γ spectroscopy of neutron-rich 95,96 Rb nuclei by the incomplete fusion reaction of 94 Kr on 7 Li Simone Bottoni University of Milan Mini Workshop 1°-

electrostatic ion beam trap

Laser Lab(s) Peter Mueller. 2 Laser Spectroscopy of Radioactive Isotopes atomphysik/research/methoden/laserspektroskopie/survey.htm.

The LaSpec project. At FAIR… Cheapest(?),Fully destripped…

Proton and Two-Proton Decay of a High-Spin Isomer in 94 Ag Ernst ROECKL GSI Darmstadt and Warsaw University.

ARIS, Tokyo 2014 Spins, Moments, and Radii of Cd by High-Resolution Laser Spectroscopy D. T. Yordanov 1, D. L. Balabanski 2, M. L. Bissell 3, K.

ALTO Laser Ion Source Ruohong Li, Serge Franchoo, Christophe Lau LA 3 NET Feb 22, 2013.

ISCC 24 May 2004L.M. Fraile L.M. Fraile, CERN PH/IS ISOLDE scientific coordinator’s report ISOLDE Collaboration Committee 24 th May 2004 ISOLDE scientific.

Spins, Moments and Charge Radii Beyond 48 Ca INTC-P-313 M.L. Bissell- On behalf of COLLAPS.

Noyaux CERN- ISOLDE Yorick Blumenfeld.

Stephane Grévy : October 8, 2012 Unveiling the intruder deformed state in 34 Si 20 and few words about N=28 IFIN - Bucharest F. Rotaru.

Laser-microwave double resonance method in superfluid helium for the measurement of nuclear moments Takeshi Furukawa Department of Physics, Graduate School.

Structures and shapes from ground state properties 1.Nuclear properties from laser spectroscopy 2.Status of laser measurements of moments and radii 3.New.

Collinear laser spectroscopy of 42g,mSc

Laser Spectroscopy for Nuclear Structure Charge Radii and Moments

Gerda Neyens for following ‘moments and radii’ collaborations at ISOLDE-CERN: Existing: (1) COLLAPS = COLinear LAser Spectroscopy beamline +  -NMRI, g,

Neutron transfer reactions at large internuclear distances studied with the PRISMA spectrometer and the AGATA demonstrator.

In-Gas Laser Ionization and Spectroscopy of Ac: A quest for the atomic and nuclear structure of heavy elements Rafael Ferrer KU Leuven, Instituut voor.

1 In-Beam Observables Rauno Julin Department of Physics University of Jyväskylä JYFL Finland.

Charge radii measured by laser spectroscopy around Z = 30

Incomplete fusion studies near Coulomb barrier Pragya Das Indian Institute of Technology Bombay Powai, Mumbai , India.

Исследование запаздывающего деления и сосуществования форм в ядрах таллия, астата и золота (ИРИС, ПИЯФ — ISOLDE, CERN) A. E. Барзах, Ю. M. Волков, В. С.

Bericht zu Thorsten Kröll KHuK-Jahrestreffen

Nuclear structure around 68 Ni J. Van de Walle, N. Kalantar et al. KVI Groningen Nuclear structure around 68 Ni J. Van de Walle, N. Kalantar et al. KVI.

K. Riisager, TA8 ISOLDEEURONS PCC-Meeting, Mainz (Germany), April 2006 Recent highlights from ISOLDE News from the facility –Users meeting, February.

Sep. 2003CNS Summer School Feb 分 => Talk なら 35 枚だが、 lecture だと少なめ？ 50 分 => Talk なら 35 枚だが、 lecture だと少なめ？

COLLAPS 2012 – Status and Outlook. The COLLAPS 2 IS 529 Spins, Moments and Charge Radii Beyond 48 Ca IS 497 Laser Spectroscopy of Cadmium Isotopes:

The REXTRAP Penning Trap Pierre Delahaye, CERN/ISOLDE Friedhelm Ames, Pierre Delahaye, Fredrik Wenander and the REXISOLDE collaboration TAS workshop, LPC.

In-source laser spectroscopy at ISOLDE and IRIS (Gatchina): New results and the problem of hyperfine structure anomaly A. Barzakh Petersburg Nuclear Physics.

Coulomb excitation of neutron-rich 32,33 Mg nuclei with MINIBALL at HIE-ISOLDE P. Reiter 1, B. Siebeck 1, M. Seidlitz 1, A. Blazhev 1, K. Geibel 1, N.

Laser Laboratory (-ies) Peter Müller. 2 Search for EDM of 225 Ra Transverse cooling Oven: 225 Ra (+Ba) Zeeman Slower Optical dipole trap EDM probe Advantages:

ISOLDE Workshop /XX Nuclear Charge Radii of Mg Isotopes by Laser Spectroscopy with Combined Fluorescence and β-decay Detection J. Krämer 1, D.T.

n=1 n=2 n=3 Mg (Z=12) Radii Ne=0.69 Å Na=1.54 Å Mg=1.30 Å.

Collinear laser spectroscopy with the COLLAPS setup M. L. Bissell on behalf of the COLLAPS collaboraion IS508: Mn IS519: Zn IS529: Ca.

June 21, th International Symposium on Molecular Spectroscopy Fourier-Transform Microwave Spectroscopy of FeCN (X 4  i ): Confirmation of the.

Beta decay around 64 Cr GANIL, March 25 th V 63 V 64 V 60 V 61 V 63 Cr 64 Cr 65 Cr 61 Cr 62 Cr 60 Cr 64 Mn 65 Mn 66 Mn 65 Fe 67 Fe 1) 2 + in 64.

Order of filling orbitals

B elgian R esearch I nitiative on e X otic nuclei ISOLDE INTC-P-316 Spokespersons: G. Neyens, M.M. Rajabali, K.U. Leuven Local contact: K.T. Flanagan,

Leuven - Mainz - ISOLDE collaboration at CERN

Trends in Heavy Ion Physics Research, Dubna, May Present and future physics possibilities at ISOLDE Karsten Riisager PH Department, CERN

The BeTINa Collaboration

ISOLDE Physics Report Magdalena Kowalska. Injector schedule since last meeting 2 September: confirmation of 2 more weeks with protons – until December.

Determining the rp-Process Flow through 56 Ni 56 Ni is a Waiting Point and imposes a delay Decay Lifetime: 2.3x10^4 s ; Burst Time: 10 – 100 s Largest.

Nuclear moments and charge radii of Mg isotopes from N=8 up to (and beyond) N=20 Univ. Mainz: M. Kowalska, R. Neugart K.U.Leuven: D. Borremans, S. Gheysen,

g-ray spectroscopy of the sd-shell hypernuclei

Laser spectroscopy and beta-NMR for nuclear physics and applications Magdalena Kowalska CERN, PH-Dept Laser spectroscopy setups at ISOLDE Example – COLLAPS.

Collinear laser spectroscopy: A powerful tool to study the structure of exotic nuclei Gerda Neyens IKS, KU Leuven, Belgium Belgian Research Initiative.

Decay scheme studies using radiochemical methods R. Tripathi, P. K. Pujari Radiochemistry Division A. K. Mohanty Nuclear Physics Division Bhabha Atomic.

Spectroscopy studies around 78 Ni and beyond N=50 via transfer and Coulomb excitation reactions J. J. Valiente Dobón (INFN-LNL, Padova,Italy) A. Gadea.

Reinhard Kulessa1 Polish-German Meeting on the New International Accelerator Facility at Darmstadt Present Polish-German Collaborations at GSI.

Collinear Laser Spectroscopy of Neutron Rich Potassium, Calcium and Manganese Isotopes M. L. Bissell on behalf of the COLLAPS collaboraion.

January 30, 2007 CERN Resonant laser ion sources By V. Fedosseev.

Hypernuclear Spectroscopy with Electron Beams

The experimental research program at the

Magdalena Kowalska CERN, EP-Dept.

Muon Spectroscopy WS, Villigen Nuclear charge radii measurements by collinear laser spectroscopy and Penning trap g-factor experiments: The need for.

Addendum to the IS608 Proposal Shape-coexistence and shape-evolution studies for bismuth isotopes by in-source laser spectroscopy A. E. Barzakh on.

JYFL ION COOLER AND BUNCHER.

Emmanuel Clément IN2P3/GANIL – Caen France

Laser assisted decay spectroscopy at the cris beam line at

Irina Stefanescu1, O. Ivanov1, J. Van de Walle1, N. Patronis1, D

Many properties of elements depend on

New Observations from the Hyperfine Structure of 49,51K

CERN-ISCC Meeting “Storage Ring Facility at HIE-ISOLDE”

Experimental determination of isospin mixing in nuclear states;

Investigation of 178Hf – K-Isomers

Probing correlations by use of two-nucleon removal

Presentation transcript:

ECT* - The interplay between atomic and nuclear physics, Trento 2015 Laser Spectroscopy of Cd: Simple Trends in Complex Nuclei D. T. Yordanov for the COLLAPS collaboration

ECT* - The interplay between atomic and nuclear physics, Trento 2015 The Shell Model 1s1s 1p1p 1d1d 2s2s 1f1f 2p2p 1s1s 1p 3/2 1p 1/2 1d 5/2 2s2s 1d 3/2 1f 7/2 2p 3/2 1f 5/2 2p 1/2 1g 9/ Nuclear chart Li Be Na Cu Ga Ne Halo nuclei Island of inversion Mg Monopole migration K Magicity Ca 21 st century laser spectroscopy at ISOLDE/CERN Zn Mn Z N

ECT* - The interplay between atomic and nuclear physics, Trento Z N 21 st century laser spectroscopy at ISOLDE/CERN 1g1g 2d2d 3s3s 1h 1g 9/2 1g 7/2 2d 5/2 2d 3/2 3s 1/2 1h 11/2 1h 9/ Cd The Shell Model Nuclear chart

ECT* 2015Curtesy of M. Stachura

ECT* Sn 100 Sn rp process r process more accurate theoretical lifetimes of the N=82 isotones below 129 Ag shell quenching vs. deformation shell effect in the radii Survey of ground-state properties in the Sn region ground and isomeric state properties of Cd Physics case - Cd

ECT* - The interplay between atomic and nuclear physics, Trento 2015 Fast-beam fluorescence Atomic work 5s 2 1 S 0 5s5p 3 P 0 5s5p 3 P 1 5s5p 3 P 2 5s6s 3 S nm, 7×10 5 s nm, 1×10 7 s nm, 3.8×10 7 s nm, 5×10 7 s -1 Cd atom 1.) ion beam; 2.) laser; 3.) deflection plates; 4.) post acceleration and charge exchange; 5.) optical detection

ECT* - The interplay between atomic and nuclear physics, Trento 2015 Nadja Frömmgen et al., Eur. Phys. J. D, 69, 164 (2015) Atomic work Example: hfs of 119 Cd

ECT* - The interplay between atomic and nuclear physics, Trento 2015 Nadja Frömmgen et al., Eur. Phys. J. D, 69, 164 (2015) Atomic work Critical input from atomic theory: EFG

ECT* - The interplay between atomic and nuclear physics, Trento 2015 accumulation release T1T1 T 2 ≈ T 1 / 10 4 ISCOOL - ISOLDE RFQCB 5s 2 S 1/2 227 nm, 3×10 8 s -1 5p 2 P 3/2 5p 2 P 1/2 215 nm, 2.8×10 8 s -1 D1D1 D2D2 Cd ion Work in the Cd ion Bunched-beam fluorescence

Laser system for 215nm 860 nm 430 nm 215 nm ECT* nm, 2.8×10 8 s -1 5s 2 S 1/2 5p 2 P 3/2 D2D2 Cd ion

ECT* - The interplay between atomic and nuclear physics, Trento 2015 Hfs of 119 Cd Phys. Rev. Lett., 110, (2013) Results & Interpretation

ECT* - The interplay between atomic and nuclear physics, Trento 2015 Discovery of long-lived isomeric states in 127, 129 Cd Phys. Rev. Lett., 110, (2013) Results & Interpretation

ECT* - The interplay between atomic and nuclear physics, Trento 2015 Phys. Rev. Lett., 110, (2013) Discovery of long-lived isomeric states in 127, 129 Cd Results & Interpretation

ECT* - The interplay between atomic and nuclear physics, Trento 2015 h 11/2 ‹j n |Q|j n › = ‹j|Q|j› 2j+1-2n 2j-1 3/2 + 11/2 - states: extreme shell-model view Phys. Rev. Lett., 110, (2013) Results & Interpretation

ECT* - The interplay between atomic and nuclear physics, Trento 2015 h 11/2 ‹j n |Q|j n › = ‹j|Q|j› 2j+1-2n 2j-1 3/2 + 11/2 - states: extreme shell-model view Phys. Rev. Lett., 110, (2013) n = 1 + p (A - n 0 ), p = 5/9, n 0 = 111 free parameters: ‹j|Q|j› = Q sp = -667(31) mb Q core = -85(8) mb effective charge: e n = 2.5 e Q core Results & Interpretation

ECT* - The interplay between atomic and nuclear physics, Trento 2015 Phys. Rev. Lett., 110, (2013) h 11/2 3/2 + 1/2 + 11/2 - states: extreme shell-model view Results & Interpretation

ECT* - The interplay between atomic and nuclear physics, Trento 2015 Charge radii: PRELIMINARY ‹r 2 › 1/2 (fm) Results & Interpretation Michael Hammen, PhD thesis, University of Mainz Trend reproduced: HFB - HFODD/UNEDF1 by N. Nikolov

ECT* - The interplay between atomic and nuclear physics, Trento 2015 Isomer vs. ground state: PRELIMINARY Results & Interpretation

ECT* - The interplay between atomic and nuclear physics, Trento 2015 IAP Summary Measured model independent I, m, Q and ‹r 2 › of Cd First direct observation of long-lived isomers in 127, 129 Cd Linear behavior of the h 11/2 Q moments in Cd Core polarization from magnetic moments Parabolic behavior of the differential ms charge radii Collinear Laser ISOLDE

EURORIB’15 Electron linac - 10  A, 50 MeV 238 U-carbide target & ion source 5 × photofissions / s Mass separator LINO

ECT* Sn 100 Sn rp process Laser spectroscopy of silver and indium at ALTO r process LINO - Laser Induced Nuclear Orientation at ALTO

ECT* 2015 LINO - Laser Induced Nuclear Orientation at ALTO Phase I: Ag Phase II: Ag charge exchange gas target Phase III: Ag

ECT* 2015 Sketch of a possible layout for  - delayed  detection  scintillation detectors  scintillation detectors HPGe magnet & implantation crystal polarized beam LINO - Laser Induced Nuclear Orientation at ALTO

ECT* 2015   - - Sketch of a possible layout for  - delayed  detection LINO - Laser Induced Nuclear Orientation at ALTO

ECT* 2015 LINO - Laser Induced Nuclear Orientation at ALTO