R-D Herzberg The SAGE Spectrometer The next four years.

Slides:

Advertisements

Similar presentations

Present and future limitations of SHE in-beam experiments R-D Herzberg.

Advertisements

Measuring octupole collectivity in 221 Rn using Coulomb excitation at MINIBALL, & SPEDE George O’Neill.

Advanced GAmma Tracking Array

GEANT4 Simulations of TIGRESS

Overview of the current TDR system Introduction Electronics for instrumentation TDR core : Metronome, ADC, Merge Data Handling Pete Jones, University of.

PIXE: Data Analysis What the data can (and cannot) tell us. Larry Lamm PIXE Seminar Winter 2008.

Pete Jones University of Jyväskylä INTAG Workshop GSI, Germany May 2007 Status of digital electronics at JYFL Pete Jones Department of Physics University.

12 th January 2011 PRESPEC Decay Physics Workshop University of Brighton 2011 High-spin states feeding seniority isomers in the heaviest N=82 isotones.

Electron Backscattering Jeff Martin University of Winnipeg Outline: Motivation Experimental Setup Results and Comparisons See also: nucl-ex/ Phys.

AGATA Introduction John Simpson Nuclear Physics Group.

Status of the External Solenoidal Spectrometer for the TSR Robert Page Why an external spectrometer? Solenoidal spectrometer Baseline design parameters.

Explosive Detection Technologies

Stable beams Radioactive beams Cluster beams 15 MV Tandem : beams from p to gold Cluster beams : C60 CnHm Au MeV electron Linac (10 µA) fission.

Congresso del Dipartimento di Fisica Highlights in Physics –14 October 2005, Dipartimento di Fisica, Università di Milano Study of exotic nuclei.

The AGATA project concept of  - ray tracking design and development Witek Męczyński The Henryk Niewodniczański Institute of Nuclear Physics Polish Academy.

LECTURE 6 RELATIVISTIC MOMENTUM AND ENERGY PHYS 420-SPRING 2006 Dennis Papadopoulos.

1 California State University, Fullerton Chapter 13 Developing and Managing Information Systems.

A LaBr3 Fast Timing Array of NUSTAR detectors at JYFL

Superheavy Element Studies Sub-task members: Paul GreenleesJyväskylä Rodi Herzberg, Peter Butler, RDPLiverpool Christophe TheisenCEA Saclay Fritz HessbergerGSI.

OpenGL Brian Farrimond Robina Hetherington. What is OpenGL A specification of a set of functions for drawing graphics –Names of functions –What information.

On octupole nuclei and the status of SPEDE

4 4 By: A. Shukr, M. Alnouri. Many new project managers have trouble looking at the “big picture” and want to focus on too many details. Project managers.

Gamma ray spectrum, its acquiring and analysis

Precise neutron inelastic cross section measurements A.Negret 1 1 “Horia Hulubei” National Institute for Physics and Nuclear Engineering, Bucharest, ROMANIA.

UNIVERSITY OF JYVÄSKYLÄ Results from the first tests with the SPEDE spectrometer Philippos Papadakis ISOLDE Workshop and Users Meeting 2014.

Workshop on Physics on Nuclei at Extremes, Tokyo Institute of Technology, Institute for Nuclear Research and Nuclear Energy Bulgarian Academy.

GRETINA experiments with fast beams at NSCL Dirk Weisshaar,  GRETINA and fast-beam experiments  Some details on implementation at NSCL  Performance.

F. Gianotti, AFP kick-off meeting, 20/9/2012 Recommendations for the next steps Reports from the:  Technical Review A.Henriques  Physics Review R.Hawkings.

Integration of a Clover Detector with the necessary electronics and computer program to utilize the ADDBACK method An SP496 and Capstone Research Project.

Tools for Nuclear & Particle Physics Experimental Background.

M. Labiche - INTAG workshop GSI May Se - D prototype for the focal plane of the PRISMA spectrometer (Task4) Digitisers for SAGE & LISA (task1)

Heavy Ion Laboratory Warsaw University Jarosław Choiński.

Direct Reactions with ORRUBA and GRETINA Steven D. Pain Oak Ridge National Laboratory GRETINA Workshop, ANL, February 2013.

Paul Greenlees, Department of Physics, University of Jyväskylä, FinlandENAM’04, Callaway Gardens, Sept04 In-beam and decay spectroscopy of transfermium.

Search for two-phonon octupole excitations in 146 Gd Energy Postgraduate Conference 2013 University of Zululand/ University of the Western Cape Nontobeko.

Schedule and Work We are moving into a very intensive 4 months with a lot of work to be carried out Electrical services to the devices – after the South.

22nd February 1999Ian Lazarus NPG, CLRC1 TDR for data processing 22nd February 1999 Ian Lazarus Nuclear Physics Group CLRC, Daresbury Lab.

Neutron inelastic scattering measurements at the GELINA facility of EC-JRC-IRMM A. Negret 1, C. Borcea 1, A. Plompen 2 1 NIPNE-HH, Romania 2 EC-JRC-IRMM,

Measurements of the (n,xn) reactions cross sections using new digital methods. Habib Karam Group GRACE.

Simulation of the energy response of  rays in CsI crystal arrays Thomas ZERGUERRAS EXL-R3B Collaboration Meeting, Orsay (France), 02/02/ /03/2006.

GBT Focal Plane Array Development Program Steven White Program Manager.

UNIVERSITY OF JYVÄSKYLÄ RDDS measurements at RITU and prospects at HIE-ISOLDE T. Grahn University of Jyväskylä HIE-ISOLDE Spectrometer Workshop, Lund

Rauno Julin TA-04 JYUEURISOL-EURONS Town Meeting Helsinki September 2007 Transnational Access to JYFL Accelerator Laboratory, Department of Physics,

Saclay, 30 January 2007 Rauno Julin Department of Physics University of Jyväskylä FinlandJYFL In-beam Spectroscopy of In-beam Spectroscopy of Transfermium.

R&D on complementary detectors and devices for nuclear structure and reaction mechanism studies R&D on complementary detectors and devices for nuclear.

Authorization and Inspection of Cyclotron Facilities Design, Layout and Shielding.

UNCLASSIFIED Impact of Complex Material Systems on the Radiation Response of Advanced Semiconductors Robert A. Reed Institute for Space and Defense Electronics.

LOMONOSOV MOSCOW STATE UNIVERSITY, SKOBELTSYN INSTITUTE OF NUCLEAR PHYSICS Multi-particle photodisintegration of heavy nuclei A.N. Ermakov, B.S. Ishkhanov,

Modification of Geant4 simulation Detailed crystal structures included reference materials real geometry.

P.F.Ermolov SVD-2 status and experimental program VHMP 16 April 2005 SVD-2 status and experimental program 1.SVD history 2.SVD-2 setup 3.Experiment characteristics.

Simulating the position sensitivity of the iThemba LABS segmented clover detector S. P. Noncolela 1, 2, T. D. Bucher 1, E. A. Lawrie 1, O. Shirinda 1,

Prompt and Delayed Conversion Electron Spectroscopy of Heavy Nuclei Andreas Heinz A. W. Wright Nuclear Structure Laboratory Yale University ATLAS Workshop,

Advanced Gamma Tracking Array Andy Boston The Advanced Gamma Tracking Array

Proposal: Towards a TDR A.TDR means Technical Design Report. B. TDR is detailed report of EXACTLY what will be done and includes detailed specifications.

of very neutron deficient heavy nuclei

Project Overview Introduction to Factory Automation Numerical Control

English for young physicists WS 09/10 Niklas Müller

MICE Computing and Software

Coulex Analysis Code – GOSIA: Current Status of Development

C. Leroy Montreal – Prague Collaboration

Decay spectroscopy with LaBr3(Ce) detectors at RIKEN and GSI

ISOLDE Workshop and Users Meeting 2017

SIGMA: a detector for γ-ray spectroscopy & imaging Dr Laura AGATA/GRETINA Collaboration Meeting

Systematic study of Z = 83 nuclei: 193,194,195Bi

OBJECT-ORIENTED APPROACH TO OFFICIAL STATISTICS

New particle ID detector for Crystal Ball at MAMI-C

GEANT Simulations and Track Reconstruction

Energy Statistics Compilers Manual

X-Ray Endstations Update

Presentation transcript:

R-D Herzberg The SAGE Spectrometer The next four years

R-D Herzberg Overview Brief Physics Case Technical description Work to be done

R-D Herzberg Physics In heavy nuclei Gamma rays and conversion electrons compete. E.g. for Z~100: E2: Conversion is dominant above 400 keV M1: Conversion is dominant above 200 keV

R-D Herzberg Physics Any heavy (trans-)actinide nucleus must be studied twice: gammas and electrons SAGE allows the simultaneous investigation of gamma rays and conversion electrons in the same experiment!

R-D Herzberg Why us? We’ve done Juroshpere/gam Dito SACRED Dito GREAT Dito TDR Dito a lot of heavy element work A lot of experience and expertise is collected in this room!

R-D Herzberg Ingredients Ge – Array John, Pete Solenoid Paul, Juha Si – detector Rodi, Robert Electronics Ian, Jim, Patrick, Dave Mechanics Dave Software John, Simon, Vic

R-D Herzberg Technical details

R-D Herzberg Ge array What shape do we want Jurogam to take in the future? As is? Clovers?

R-D Herzberg Solenoid Need to efficiently transport the electrons from the target to the detector Must not interfere with Ge detectors Tricky: need optimisation

R-D Herzberg Si detector High pixellation Rate distribution High rate capability

R-D Herzberg Electronics DIGITAL TNT2 tests have been done Total capability up by a factor 12: 4 x segmentation, 3 x rate/pixel Huge data rates!

R-D Herzberg Mechanics Target chamber Solenoid support Si detector chamber Ge frame Target wheel Windowless operation?

R-D Herzberg Q2Q2 Q3Q3 Q4Q4 Q1Q1 Q2Q2 Q3Q3 Q4Q4 Q1Q1 Q2Q2 Q3Q3 Q4Q4 Q1Q1 Q2Q2 Q3Q3 Q4Q4 Q1Q1 Q2Q2 Q3Q3 Conceptual and mechanical design of SAGE Manufacture, testing and installation Electronics design and implementation Support of experimental programme GREAT, JUROGAM, SACRED exploitation SAGE + GREAT exploitation Data analysis and dissemination