SPEAR3 Beam Line Upgrades

Slides:

Advertisements

Similar presentations

2002 November 16 CLS PROJECT STATUS M.S. de Jong Project Leader November 16, 2002 Annual Users’ Meeting.

Advertisements

Stanford Synchrotron Radiation Lightsource Sources and Optics for XAS Apurva Mehta.

Necessity of Moving from Green Book to White Book M. Hadi Hadizadeh Yazdi International Scientific Meetings Office Iran October 26, 2002 Amman, Jordan.

1 BROOKHAVEN SCIENCE ASSOCIATES National Synchrotron Light Source II Damping Wiggler Beamline: XAS Preliminary Design Summary Paul Northrup January 16th,

ESTB Test Beam Upgrades Hadrons Shorter bunch length Carsten Hast March 17 th 2011.

Accelerator Physics: Synchrotron radiation Lecture 2 Henrik Kjeldsen – ISA.

Richard M. Bionta XTOD October 12, 2004 UCRL-PRES-XXXXX X Ray Transport, Optics, and Diagnostics, Overview Facility Advisory Committee.

Beamline 12 Project BL12 In-vacuum Undulator Source August 11, 2004 Andy Ringwall BL12 In-vacuum Undulator Source August 11, 2004 Andy Ringwall.

SSRL: A Vision for the Future Joachim Stöhr, SSRL Director SSRL 32 nd Annual Users' Meeting October 17, 2005 Present status Management vision and goals.

SPEAR3 Chicane, Accelerator Physics Update, February 10, 2005 Electron optics design review August 11, 2004 –“… no show stoppers. However, …” Additional.

John Arthur X-Ray Optics October 12, 2004 X-Ray Prototype Optics Specifications John Arthur.

Aperture Considerations in the FEL Upgrade Accepted design process –generate design  known –set aperture = N  + W N typically 4 to 6 W is “beam handling.

John Arthur X-ray April 20, 2006 X-Ray Beamline and Experiment Layout John Arthur LCLS Photon Systems Manager.

Management & Leadership in Community Nursing RCN Career Fair 11 September 2013 Shirley Baah-Mensah Service lead & Consultant Leadership & Career success.

1 UNIT 9 DESIGNING MORE FITTING ENVIRONMENTS. 2 Social design research involves studying how settings can best serve human desires and requirements. Social.

2011 Damping Rings Lattice Evaluation Mark Palmer Cornell University March 8, 2011.

1 Overview of the NPDGamma Experiment at the Fundamental Neutron Physics Beamline Geoff Greene UT/ORNL.

DVA Series Work Flow P. Dewdney Apr 15, SPDO DVP Work Flow 2 DVA-1 CPG.

1 BROOKHAVEN SCIENCE ASSOCIATES Lonny Berman and Dario Arena, NSLS Summary The present built-out NSLS-II design includes: 30 bending magnet ports, each.

HXMA BL Status CLS AUM 07 June 15, 2007 XAFS: operational; Microprobe: opening for letter of intent; Diffraction: under commissioning.

1 BROOKHAVEN SCIENCE ASSOCIATES NSLS-II Project Baseline Jim Yeck NSLS-II Deputy Project Director NSLS-II PAC Meeting November 20, 2007.

1 BROOKHAVEN SCIENCE ASSOCIATES NSLS-II ASAC-2007, April. 23, 2007 NSLSII Footprint F. Willeke, April 23, 07 Accomodation of Extra Long Straights Considerations.

1 BROOKHAVEN SCIENCE ASSOCIATES Experimental Facilities John Hill CFAC review October 18 th, 2006.

Sept.2001 Shanghai symposium D.T. Jiang Acknowledgements Deming Shu, APS Tom Rebedeue, SSRL.

SSRL XAS Beam Lines – Soft X-ray

Light Source Reviews The BES Perspective July 23, 2002 Pedro A. Montano Materials Sciences and Engineering Basic Energy Sciences BASIC ENERGY SCIENCES.

Project Management Mark Palmer Cornell Laboratory for Accelerator-Based Sciences and Education.

1 BROOKHAVEN SCIENCE ASSOCIATES NSLS-to-NSLS-II beamline transition plan Outline Reasons, Scope, Criteria, Further input, Timeline Transition plan, Beamline.

SAXS/WAXS Conversion for Beamline Engineering Review.

A Double Crystal Monochromator of Sagittal Focusing at SSRF J.H. He, S.J. Xia, Z.C. Hou, J.L. Gong, X.M. Jiang and Y. Zhao SSRF Project Team Shanghai Institute.

1 BROOKHAVEN SCIENCE ASSOCIATES Redundancy Requirements for Critical Devices R. Casey August 8, 2007.

Energy Policy Act - BLM Cadastral Support Strategy 1 CADASTRAL PLANNING CADASTRAL SERVICES Consultation for Effective and Efficient Land Management: National.

Stability Requirements for Superconducting Wiggler Beamlines

Cognitive Radio: Next Generation Communication System

7/23/99 NIH/NIGMS Support of Structural Biology NIH individual research grants with crystallography projects (FY 98) –primary: 225 grants, $51M total costs.

1 BROOKHAVEN SCIENCE ASSOCIATES NSLS-II Overview Satoshi Ozaki Director, Accelerator Systems Division NSLS-II Project March 27, 2007.

ELECTRON MOVING AT CONSTANT VELOCITY

Shielding Helium Cold neutron source Shutter Cooled filters Radial Collimators Variable Aperture Focusing monochromator on translation stage Focusing monochromator.

A New High Intensity Cold Neutron Spectrometer at NIST J. A. Rodriguez 1,3, P. Brand 3, C. Broholm 2,3, J.C. Cook 3, Z. Huang 3, P. Hundertmark 3, J. Lynn.

1 BROOKHAVEN SCIENCE ASSOCIATES A Wiggler Beamline for XAS at NSLS-II Paul Northrup NSLS-II Project and Environmental Sciences Department Brookhaven National.

Interaction between Detector and Accelerator Final goal of IR Design is a maximum of useful data on tape In general: There is no clear Boundary between.

01/08/2009 AS-TAGL Mtg Global Design Effort 1 CesrTA Update Mark Palmer CLASSE.

Design of single-shot time/energy- resolved XES spectrometer for the LCLS Katherine Spoth Dennis Nordlund, mentor August 11, 2011.

Seungyu Rah (Pohang Accelerator Laboratory, POSTECH, Korea) Nov

Computed tomography. Formation of a CT image Data acquisitionImage reconstruction Image display, manipulation Storage, communication And recording.

ECOOL Meeting 03/26/10 1 Electron beam transport for FNAL electron cooler E-cooling is referred as “non-magnetized” OVERVIEW Material is taken from FNAL’s.

LHC Injectors Upgrade Project 11/11/2010 R. Garoby.

Re-design of extraction line for single stage BC

Chapter 34 Geometric Optics © 2016 Pearson Education Inc.

COMP532 IT INFRASTRUCTURE

A Guide for Policy Makers and Consumer Advocates

Capital Project Needs Assessment

SSRL Beam Line Infrastructure Update February 2002

Presented by Munezero Immaculee Joselyne PhD in Software Engineering

Hollow e- lens, Cryogenic aspects

Why Consider a Toroid Spectrometer Built Around Existing Hardware?

The SPEAR3 Upgrade Project at SLAC

The SPEAR3 Upgrade Project at SLAC

Superbeams with SPL at CERN

Topic 11: Designing More Fitting Environments

Updates on IR and FF for super-B factory

BL 7.2 Diagnostic Beamline

European Spallation Neutron Source ESNS

IS4680 Security Auditing for Compliance

BL 7.2 Diagnostic Beamline

Data Preservation During Upgrades

X-Ray Transport, Optics, and Diagnostics WBS Alan J

Optics John Arthur, SLAC & William W. Craig, LLNL April 24, 2002

Test Beamline System Requirements and Charge to PDR Committee

The communication system for England & Wales

Presentation transcript:

SPEAR3 Beam Line Upgrades Objective: Upgrade beam line optics, etc to facilitate optimal exploitation of the SPEAR3 source characteristics. Schedule: all front ends 500mA capable on SPEAR3 startup (Fall, 2003) all ID beam lines 500mA capable in 2004 (resources permitting) all bend beam lines 500mA capable with filtering and/or aperturing by 2004 (resources permitting) Funding: DOE BES, DOE BER, NIH NCRR, PRT, ... SSRL Beam Line Infrastructure - 2001 User Meeting - Rabedeau

SPEAR3 - Beam Line Upgrades Program Elements evaluate and optimize beam line functionality in the context of the present/future user community needs mask, filter, window, and optic upgrades as required to cope with the power increase focusing optic upgrades to faithfully image the source position monitor, optic, and support structure improvements to preserve SPEAR3 stability shielding modifications to ensure SSRL continues to operate safely new insertion devices for BL4/7 to fully utilize the SPEAR3 source characteristics and provide new capabilities SP2 SP3 BL4-2 focus w/ 2mr accept. SSRL Beam Line Infrastructure - 2001 User Meeting - Rabedeau

SPEAR3 Beam Line Upgrades Most beam lines will experience optics improvements but relatively modest conceptual changes. There are, of course, exceptions to this rule. A few of the more notable exceptions proposed are: BL5-2/3 where the locust monochromator will be replaced and the beam line optimized for 250-1200+eV operations (currently 10-1200eV); BL7-2 where the conventional toroidal mirror focusing system will be replaced with a cylindrical mirror and sagittal focusing monochromator for improved high energy performance; BL4-3 & BL7-3 which will obtain collimating mirror optics; BL6-2 where the optics will be transformed to a double mirror system similar to 9-2, 9-3, and 11-2 and optimized for >5000eV operations; BL3-3 where the beam line will be optimized for 1750-5000eV operations; BL8-2 will be optimized for 250-1900eV operations with the inclusion of a grating multilayer and reconfigured mirror optics; BL4/7 which will benefit from new 20 pole, 2.1T wigglers. SSRL Beam Line Infrastructure - 2001 User Meeting - Rabedeau

SP3 BL Upgrade Schedule resource constrained schedule: all front ends 500mA capable on SPEAR3 startup (Fall, 2003) all ID beam lines 500mA capable in 2004 (resources permitting) all bend beam lines 500mA capable though perhaps not operating ideally by 2004 (resources permitting) SSRL Beam Line Infrastructure - 2001 User Meeting - Rabedeau