Overview of Electron Cooling Activities at FNAL Thomas Kroc Fermilab – Electron Cooling EIC 2004 March 15-17, 2004 Jefferson Lab.

Slides:

Advertisements

Similar presentations

Ultimate performance of relativistic electron cooling at Fermilab A. Shemyakin and L. R. Prost (Fermilab) September 15, 2011 COOL’11 A eulogy (from εὐλογία,

Advertisements

Diagnostics and commissioning on ERLP Yuri Saveliev ASTeC CONFORM Project: EMMA Design Review Workshop February 2007, Daresbury Laboratory.

OTR MEASUREMENTS AND MODELING OF THE ELECTRON BEAM PARAMETERS AT THE E-COOLING FACILITY A. Warner 1, A. Burov 1, K. Carlson 1, G. Kazakevich 2, S. Nagaitsev.

1 Low-energy RHIC electron Cooler (LEReC) Update November 17, 2014.

Re-commissioning the Recycler Storage Ring at Fermilab Martin Murphy, Fermilab Presented August 10, 2012 at SLAC National Laboratory for the Workshop on.

The 2nd Tevatron Electron Lens and tests of a new electron gun in the framework of Beam-Beam Compensation project Yu. Alexahin, V. Kamerdzhiev, G. Kuznetsov,

Sergey Antipov, University of Chicago Fermilab Mentor: Sergei Nagaitsev Injection to IOTA ring.

Electron Cooling in the Recycler Ring Alexander Shemyakin (Fermilab/AD) May 31, 2005.

Generation and Characterization of Magnetized Bunched Electron Beam from DC Photogun for MEIC Cooler Laboratory Directed Research and Development (LDRD)

Thomas Jefferson National Accelerator Facility Operated by the Southeastern Universities Research Association for the U.S. Department of Energy Issues.

STRIPLINE KICKER STATUS. PRESENTATION OUTLINE 1.Design of a stripline kicker for beam injection in DAFNE storage rings. 2.HV tests and RF measurements.

COULOMB ’05 Experiments with Cooled Beams at COSY A.Lehrach, H.J.Stein, J. Dietrich, H.Stockhorst, R.Maier, D.Prasuhn, V.Kamerdjiev, COSY, Juelich, I.Meshkov,

Status of High Energy Electron Cooling at FNAL’s Recycler Ring XX th Russian Conference on Charged Particle Accelerators September 13 th, 2006 L. Prost,

Fermilab DC Cooler Experiences Lionel Prost MEIC Collaboration Meeting Spring 2015 (Topics: Ion Beam Formation and Cooling) 30 March 2015.

Electron Cooling Commissioning Update Run II meeting May 12, 2005 L. Prost, Ecool Group.

Generation and Characterization of Magnetized Bunched Electron Beam from DC Photogun for MEIC Cooler Laboratory Directed Research and Development (LDRD)

AAC 2006V.Shiltsev 1 Electron beam generation and control in Tevatron Electron Lenses Vladimir Shiltsev, R.Hively, V.Kamerdzhiev, G.Kuznetsov, H.Pfeffer,

Electron cooling of 8 GeV antiprotons at Fermilab’s Recycler: Results and operational implications June 5 th, 2006 L. Prost, Recycler Dpt. personnel Fermi.

09/13/20111 Status of high intensity polarized electron gun project at MIT-Bates Evgeni Tsentalovich MIT.

Low Emittance RF Gun Developments for PAL-XFEL

HPS Collaboration Meeting JLAB, May Tracker Design Status M.Oriunno, SLAC.

F Antiproton Source Apertures Steve Werkema DOE Tevatron Operations Review March 22, 2006.

October 4-5, Electron Lens Beam Physics Overview Yun Luo for RHIC e-lens team October 4-5, 2010 Electron Lens.

Electron cooling at the Recycler: Update and Cooling force characterization October 19 th, 2006 L. Prost, Recycler Dpt. personnel Fermi National Accelerator.

1 Flux concentrator for SuperKEKB Kamitani Takuya IWLC October.20.

Simulation of direct space charge in Booster by using MAD program Y.Alexahin, A.Drozhdin, N.Kazarinov.

Stability of the electron energy Recycler department meeting April 5 th, 2006 A. Shemyakin, M. Sutherland.

Electron Source Configuration Axel Brachmann - SLAC - Jan , KEK GDE meeting International Linear Collider at Stanford Linear Accelerator Center.

Electron energy stability: analysis from snapshot data and temperature stabilization Recycler Departmental Meeting May 21, 2008 A. Shemyakin 1.Analysis.

Overview: Primary Sensitivities Nov S. Childress Page 1 NuMI Overview: NuMI Primary Beamline Sensitivities NuMI requirements are for a very large.

HV Electron Cooling System for NICA Collider

Project X Injector Experiment (PXIE) Sergei Nagaitsev Dec 19, 2011.

Kévin Pepitone 1CLIC project meeting, CERN, December 1st, 2015 Kevin PEPITONE, BE-RF Drive Beam Injector Gun.

A simple formula for calculating the momentum spread from the longitudinal density distribution and RF form Recycler Meeting March 11, 2009 A. Shemyakin.

Evolution of beam energy distribution as a diagnostics tool Alexey Burov, Bill Ng and Sergei Nagaitsev November 13, 2003.

ICFA-HB 2004 Commissioning Experience for the SNS Linac A. Aleksandrov, S. Assadi, I. Campisi, P. Chu, S. Cousineau, V. Danilov, G. Dodson, J. Galambos,

Overview and Status of the Fermilab High Intensity Neutrino Source R&D Program Giorgio Apollinari for Bob Webber.

LDRD: Magnetized Source JLEIC Meeting November 20, 2015 Riad Suleiman and Matt Poelker.

NuMI Primary BooNE / NuMI S. Childress (FNAL) Primary Beams for Mini-BooNE & NuMI 18 March, 2002 Mini-BooNE inputs from Craig Moore and Al Russell Includes.

Progress of Electron Cooling at the Recycler January 26 th, 2006 L. Prost, Recycler Dpt. personnel f Fermi National Accelerator Laboratory.

Fermilab Run 2 Accelerator Status and Upgrades

Updated Overview of Run II Upgrade Plan Beam Instrumentation Bob Webber Run II Luminosity Upgrade Review February 2004.

Cooling of Hadrons at Relativistic Energies: Performance of FNAL’s Recycler Electron Cooler BNL – Collider-Accelerator Department Accelerator Physics Seminar.

Electron energy stability (observations after the HV regulation repairs) Recycler Meeting April 30, 2008 A. Shemyakin.

Development of High Current Bunched Magnetized Electron DC Photogun MEIC Collaboration Meeting Fall 2015 October 5 – 7, 2015 Riad Suleiman and Matt Poelker.

Progress of Bunched Beam Electron Cooling Demo L.J.Mao (IMP), H.Zhang (Jlab) On behalf of colleagues from Jlab, BINP and IMP.

NuMI PS Specs June 2001 S. Childress Page 1 NuMI NuMI requirements are for a very large fraction of the available Main Injector intensity over a period.

G 0 Project Coordinator Report Joe Grames “Big Picture” Schedule Preparations Polarized Source Injector Accelerator Hall C Accelerator Plans for 687 MeV.

Estimates of required MPS reaction time In the merger (at the centers of respective 20deg dipoles and in between 2 lenses) rms R=250 um In the

Kévin Pepitone 1CLIC workshop, CERN, January 2016 Kevin PEPITONE, BE-RF LEETCHI: Drive Beam Electron Source.

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.

Beam Commissioning Adam Bartnik.

Fermilab Electron Cooling System

E-beam scanner experience at FNAL

ELENA Overview and Layout Start of ELENA Commissioning Next Steps

Adriana Rossi, Sergey Sadovich

DC Injector and Space Charge Simulation Status

Task E - A0 and related activities

Experimental Overview

Task E - A0 and related activities

Magnetized Bunched Electron Beam from DC High Voltage Photogun

The Cornell High Brightness Injector

R. Suleiman and M. Poelker October 12, 2018

R. Suleiman and M. Poelker September 29, 2016

PIs: Riad Suleiman and Matt Poelker

Advanced Research Electron Accelerator Laboratory

Linac/BC1 Commissioning P

LCLS Injector/Diagnostics David H. Dowell, SLAC April 24, 2002

Ring-based High Energy Electron Cooler

Generation of Magnetized Bunched Electron Beam for MEIC Cooler

Presentation transcript:

Overview of Electron Cooling Activities at FNAL Thomas Kroc Fermilab – Electron Cooling EIC 2004 March 15-17, 2004 Jefferson Lab

EIC'04 Mar ,2004 Schematic Layout of the Recycler Electron Cooling

EIC'04 Mar ,2004 Simplified Electrical Schematic of Recirculation For I=.5A,  I=5  A Beam Power 2.15 MW Power in current loss 21.5 W Power dissipated in collector2.5 kW Also called Bias Supply

EIC'04 Mar ,2004Alexey Burov Longitudinal rates Both longitudinal and transverse electron cooling of pbars look attractive for the Recycler, especially with vacuum (1-3 pi mm mrad/h) improvements after the last summer shutdown. Figures below are calculated for 0.5 A of the electron current and 0.2 mrad of the effective 1D rms angle of the e-beam.

EIC'04 Mar ,2004Alexey Burov Transverse rates The transverse rate is shown here. Both curves are calculated for norm rms emittance of 1.2 mm mrad. The horizontal axis is the action in mm mrad (averaged action = norm rms emittance) for the longitudinal core (red) and tail (blue) particles. For the bulk of the beam, the e-folding time is 20 min or shorter. The rates are defined as action logarithmic derivatives.

EIC'04 Mar ,2004 Full Scale Beamline at Wideband Milestones Low intensity DC beam in collector Jul 03 Stable.5A at 3.5 MeV Dec 03 Cold Beam at.5A, 3.5 MeV Mar 04  

EIC'04 Mar ,2004 Recirculation Comparison of 180 U-bend test with full beam line Note different Bias Current Response Difference in Bias current response due to different loss characteristics in line (affecting beam envelope ?)

EIC'04 Mar ,2004 Stability 500 mA, 4.5 hour run 3 interuptions Restored within 12 seconds by FSM

EIC'04 Mar ,2004Arden Warner Multiwire Profile data Comparison of profiles that are shifted by 2mm ±2% relative variation

EIC'04 Mar ,2004 Gun Schematic Gun assembly with solenoids Anode, w/diaphragm Cathode w/Control Electrode

EIC'04 Mar ,2004Vitali Tupikov -- based on August measurements for Bz=100G -- Bx0, Bx0’ (G) By0, By0’ (G) dBxy0 (G) Bxy0’ = Bxy0 + *Bz + Z (m) Field Maps of Cooling Section

EIC'04 Mar ,2004 Drawing of a Cooling Module

EIC'04 Mar ,2004Alexander Shemyakin Angles in the Cooling Section The best RMS values, in mrad. The goal is 0.08 mrad for each. ValueComments Central trajectory Without CS field corrections With field corrections Boundary electron with respect to the center 0.6I = 0.35 A, Bcs=100G, beam diameter 9 mm Trajectory oscillations and drift ? I = 0.17 A, 3 Hz- 1 kHz In a shift > 1 kHz

EIC'04 Mar ,2004Alexander Shemyakin Beam Oscillations A program records readings from a single BPM channel with 3 kHz rate The largest component in the most of signals is 30 Hz (29.6 Hz), and the next is 60 Hz 30 Hz component is the largest one in the CPO (Pelletron voltage) signal as well The beam oscillations may be originated by terminal mechanical motion, oscillations of HV, fields from motors and power grid, …

EIC'04 Mar ,2004Alexander Shemyakin Diagnostics Wire scanner BPM Scraper Flying wire Multiwire

EIC'04 Mar ,2004 Magnetic Shielding MI Ramp ~.5 Hz Fields due to busses, Q306

EIC'04 Mar ,2004 Main Injector Beamline Main Injector Quad

EIC'04 Mar ,2004 Bus Configuration Triquad bus 3 parallel busses Center full current 2 returns – half current Dipole and quad bus Quad compensation loop Existing dipole only New dipole and quad positions

EIC'04 Mar ,2004 Magnetic Shielding Tested two shields Telescoping “trombone” 2 halves 2 orientations

EIC'04 Mar ,2004 Integrated Fields

EIC'04 Mar ,2004 To Do List: High Losses Gun lifetime Beam Motion Drifts Conditioning 4.3 MeV Magnetic Shielding Energy Cal. Detection of Cooling

EIC'04 Mar ,2004 Schedule Now – cold beam (not yet) 4/20/04 – new enclosure complete 6/1/04 – disassemble Pelletron, begin move 8/23 – 11/19 – shutdown for tunnel installation, resume reassembly 3/1/05 – commission Pelletron 5/1/05 – commission ecool 12/1/05 – Electron Cooling Operational

EIC'04 Mar ,2004Sergei Nagaitsev Commissioning stages HV commissioning of the Pelletron (1 month) U-bend recirculation (1 month) Full beam line (4 month) Pulsed beam DC beam Pbar – electron beam: position matching (1 month) Energy matching (1 month) Cooling rate measurements Electron beam optimization