Proton Driver Keith Gollwitzer Accelerator Division Fermilab MAP Collaboration Meeting June 20, 2013.

Slides:

Advertisements

Similar presentations

ISS meeting, (1) R. Garoby (for the SPL study group) SPL-based Proton Driver for Facilities SPL-based Proton Driver for Facilities at CERN:

Advertisements

ISIS Accelerator Division

1 Methods of Experimental Particle Physics Alexei Safonov Lecture #8.

1 Proton Upgrades at Fermilab Robert Zwaska Fermilab March 12, 2007 Midwest Accelerator Physics Collaboration Meeting Indiana University Cyclotron Facility.

Muon Collider 2011 Workshop Jun 27-July 1 in Telluride, CO Gollwitzer & Nagaitsev presented Attending: Ankenbrandt, Lebedev, Pasquinelli, Popovic, and.

Task Force on Project X for Muon Collider Keith Gollwitzer Accelerator Division Fermilab.

Project X – MAP Task Force Keith Gollwitzer Accelerator Division Fermilab Project X Collaboration Meeting Oct 25, 2011.

Thomas Roser Snowmass 2001 June 30 - July 21, MW AGS proton driver (M.J. Brennan, I. Marneris, T. Roser, A.G. Ruggiero, D. Trbojevic, N. Tsoupas,

Nufact09-IIT 107/24/2009 Project X and a Muon Facility at Fermilab Milorad Popovic FNAL.

Paul Derwent 30 Nov 00 1 The Fermilab Accelerator Complex o Series of presentations  Overview of FNAL Accelerator Complex  Antiprotons: Stochastic Cooling.

3 GeV,1.2 MW, Booster for Proton Driver G H Rees, RAL.

Proton Plans at Fermilab Robert Zwaska - Fermilab Science and Engineering at Henderson- DUSEL Capstone Workshop Stony Brook University May 5, 2006 Outline.

Antiproton Source Capabilities and Issues Keith Gollwitzer & Valeri Lebedev Accelerator Division Fermilab 1.

Brookhaven Science Associates U.S. Department of Energy AGS Upgrade and Super Neutrino Beam DOE Annual HEP Program Review April 27-28, 2005 Derek I. Lowenstein.

Fermilab, Proton Driver, Muon Beams, Recycler David Neuffer Fermilab NufACT05.

Proton Driver at Fermilab Keith Gollwitzer Accelerator Division Fermilab IDS-NF 7 th Plenary Meeting Oct 17-19,2011.

Related poster [1] TPAG022: Slow Wave Electrode Structures for the ESS 2.5 MeV Chopper – Michael A. Clarke-Gayther Status Funding bids have been prepared.

F Project X Overview Dave McGinnis October 12, 2007.

EDM2001 Workshop May 14-15, 2001 AGS Intensity Upgrade (J.M. Brennan, I. Marneris, T. Roser, A.G. Ruggiero, D. Trbojevic, N. Tsoupas, S.Y. Zhang) Proton.

J. Pozimski UKNF WP1 meeting 10 March 2010 UKNF WP1 milestone table status.

Secondary Particle Production and Capture for Muon Accelerator Applications S.J. Brooks, RAL, Oxfordshire, UK Abstract Intense pulsed.

1 Design of Proton Driver for a Neutrino Factory W. T. Weng Brookhaven National Laboratory NuFact Workshop 2006 Irvine, CA, Aug/25, 2006.

CASA Collider Design Review Retreat HERA The Only Lepton-Hadron Collider Ever Been Built Worldwide Yuhong Zhang February 24, 2010.

R.G. 7/09/20101 Options for neutrinos. R.G. 7/09/20102 Conventional beam from the SPS (1/3) Neutrinos using the SPS Nominal CNGS 732 km baseline from.

J. Pasternak First Ideas on the Design of the Beam Transport and the Final Focus for the NF Target J. Pasternak, Imperial College London / RAL STFC ,

Proton Delivery to Target Keith Gollwitzer Accelerator Division Fermilab MAP 2012 Winter Meeting March 7, 2012.

An Integrated Intensity Frontier Strategy Steve Holmes & Bob Tschirhart LBNE Reconfiguration Workshop April 25, 2012.

F Project X Overview Dave McGinnis August 8, 2007.

Overview of Booster PIP II upgrades and plans C.Y. Tan for Proton Source group PIP II Collaboration Meeting 03 June 2014.

Accelerator Issues Fermilab Antiproton Experiment Keith Gollwitzer Antiproton Source Department Accelerator Division Fermilab.

Mu2e, August 15, 2007 E Prebys 1 The Steering Group and mu2e Eric Prebys.

Proton Driver Keith Gollwitzer May 31, Initial Design Overview For design purposes, the following is assumed –H - beam comes from PIP II and follow-on.

Proton Beam for PRISM Keith Gollwitzer Accelerator Division Fermilab 5 th Workshop Project X Physics – Muons November 8, 2010.

Fermilab Proton Driver and Muons David Johnson Fermilab Neutrino Factory Muon Collider Collaboration Meeting March 14, 2006.

PIP-II: Why a new accelerator? Paul Derwent Fermilab Community Advisory Board 23 July 2015.

Overview of the Project X RD&D Plan Sergei Nagaitsev AAC Meeting February 3, 2009.

Proton Source & Site Layout Keith Gollwitzer Accelerator Division Fermi National Accelerator Laboratory Muon Accelerator Program Review Fermilab, August.

WG2 (Proton FFAG) Summary G.H. Rees. Proton Driver Working Group  Participants: M. Yashimoto, S. Ohnuma, C.R. Prior, G.H. Rees, A.G. Ruggiero  Topics:

IDS-NF Accelerator Baseline The Neutrino Factory [1, 2] based on the muon storage ring will be a precision tool to study the neutrino oscillations.It may.

Fermilab and Muons Proton Driver (for ν-Factory, μ + -μ - Collider, …) David Neuffer Fermilab.

LINAC4 and the Upgrade of the LHC Injector Complex R. Garoby 26 February, 2013.

Proton Driver – Target Station Interfaces Keith Gollwitzer Fermilab Wednesday May 28, 2014 MAP 2014 Spring Meeting.

Proton Driver / Project X Keith Gollwitzer Fermilab August 30, 2012.

F A Fermilab Roadmap Dave McGinnis May 28, f Fermilab Roadmap - McGinnis Timelines  Divide the road map into three parallel paths  ILC - Energy.

Early Beam Injection Scheme for the Fermilab Booster: A Path for Intensity Upgrade Chandra Bhat Fermi National Accelerator Laboratory DPF2015, ANN ARBOR,

Status of Project X Keith Gollwitzer Accelerator Division Fermilab MAP Winter Meeting - March 1, 2011.

Proton Driver Design Keith Gollwitzer Fermilab February 19, 2014.

FFAG’ J. Pasternak, IC London/RAL Proton acceleration using FFAGs J. Pasternak, Imperial College, London / RAL.

F Possible Proton Capabilities at Fermilab Dave McGinnis April 16, 2007.

Steering Group Meeting 10:30 – 12:30 am CDT Monday, July 23, 2007 Y2K.

Protons for Neutrinos: Mid-Term and Project-X Bob Zwaska Fermilab Intensity Frontier Neutrino Working Group Meeting October 24, 2011.

F Project X: Recycler 8.9 GeV/c Extraction D. Johnson, E. Prebys, M. Martens, J. Johnstone Fermilab Accelerator Advisory Committee August 8, 2007 D. Johnson.

Overview of Project X ICD and RD&D Plans David Neuffer material from Paul Derwent & Sergei Nagaitsev (AAC Meeting, February 3, 2009)

Project X: Accelerators Sergei Nagaitsev September 2, 2011.

Proton Source Reference Notes for mu2e at Fermilab 1 Section 1: Compilation of parameters describing the existing Fermilab accelerator complex and the.

U.S. Plans for High Power Proton Drivers Steve Holmes Fermilab Workshop on Physics with a Multi-MW Proton Source CERN May 25, 2004.

F Sergei Nagaitsev (FNAL) Aug Project X ICD2 Briefing.

Neutrino Factory by Zunbeltz, Davide, Margarita, Wolfgang IDS proposal.

Project X as a Muon Facility Platform Keith Gollwitzer Fermilab Accelerator Advisory Committee November 7-9, 2011.

F Sergei Nagaitsev (FNAL) Webex meeting Oct ICD-2 chopper requirements and proposal #1.

8 GeV Linac (Project X) and mu2e Chuck Ankenbrandt Fermilab Mu2e Collaboration Meeting August 1, 2007 My Preferred title: Linac & Recycler & Accumulator.

1 Sam Childress. 2 S. Childress NNN11 Existing Fermilab Neutrino Beams 120 GeV NuMI 8 GeV BNB 2 J. Strait.

PSI, Zurich February 29 – March Session classification : Accelerator Concepts Tuesday, March 1, 2016 Introduction Vyacheslav Yakovlev Fermilab,

Steve Holmes DNP Meeting/Santa Fe November 6, 2010 Project X: A Multi-MW Proton Source at Fermilab.

UK Neutrino Factory Conceptual Design

Towards a Common Proton Driver for a Neutrino Factory

FFAG Accelerator Proton Driver for Neutrino Factory

Progress towards Pulsed Multi-MW CERN Proton Drivers

SLHC-PP kick-off meeting, CERN 9 April 2008

General Issues for a Multi-MW driver

Presentation transcript:

Proton Driver Keith Gollwitzer Accelerator Division Fermilab MAP Collaboration Meeting June 20, 2013

Outline Project X –Goals –Phases Project X into Proton Driver –Phase 4 for 4 MW at 8 GeV –Phase 2 for 1 to 3 MW at 3 GeV –Issues June 20, 2013Gollwitzer2

Project X Mission Goals Provide a neutrino beam for long baseline neutrino oscillation experiments based on a capability of targeting at least 2 MW on proton beam power at any energy between GeV. Provide MW-class, multi-GeV, proton beams supporting multiple kaon, muon and neutrino based precision experiments. Simultaneous operations of the rare processes and neutrino programs are required. Provide a path toward a muon source for possible future Neutrino Factory and/or Muon Collider. Provide Options for implementing a program of Standard Model tests with nuclei and/or nuclear energy applications. June 20, 2013Gollwitzer3

Project X Reference Design June 20, 20134Gollwitzer CW Linac will support average beam current of 1 mA to 3 GeV Pulsed Linac (3-8 GeV) will have a ~5% duty factor Possible 8 GeV beam power of 320 kW Programmable Chopper System (part of H- source) will provide appropriate bunch structure for the linac experiments as well as fill the appropriate part of the RF buckets in the accumulating Recycler Ring

Proton Driver Layout June 20, 20135Gollwitzer Accumulator Ring Compressor Ring 4MW Target

Project X Staging Recently, DOE requested Fermilab to propose staging of Project X 1.Ion Source and CW Linac to 1 GeV; inject into current Booster; possible 1 MW at 1 GeV 2.CW Linac 1 to 3 GeV with 3 GeV experiment campus 3.Pulsed Linac 3 to 8 GeV; inject into Recycler –Upgrade Project X to 4 MW at 8 GeV June 20, 2013Gollwitzer6

Staging Site Plan Gollwitzer7June 20, 2013

Project X and 8 GeV Proton Accumulation Gollwitzer8June 20, 2013 Accumulation Compressor

Project X and 3 GeV Proton Accumulation Gollwitzer9June 20, 2013 Accumulation Compressor

Project X to 8 GeV Proton Driver Upgrade Project X to 4 MW at 8 GeV –Increase particles Doubling particles per linac bunch Average beam current increase to 5 mA –Increase pulsed linac duty factor Increase to 10% Additional RF power and infrastructure Beam Reformatting –Accumulation Ring –Bunch Compression June 20, 2013Gollwitzer10

Project X to 3 GeV Proton Driver Upgrade Project X to 4 MW at 8 GeV –Increase particles Doubling particles per linac bunch Average beam current increase to 5 mA –Increase pulsed linac duty factor Increase to 10% Additional RF power and infrastructure Beam Reformatting –Accumulation Ring –Bunch Compression June 20, 2013Gollwitzer or 3MW

Possible Operational Schemes - 1 Upgraded Project X –Run beam to Accumulation Ring Hz for few ms intervals –For 8 GeV, the pulsed linac is used (6.67 ms at 15 Hz) –Programmable chopper allows half of beam into linac Accumulation Ring –Converts ion beam to proton beam –RF buckets synchronized to chopper –Results in several bunches June 20, 2013Gollwitzer12

Possible Operational Schemes - 2 Desired frequency to Compressor Ring –Transfer single bunch at a time –Transfer all bunches Compressor Ring bunch rotates beam and extracts into 1 or multiple beam lines to target –Multiple beam lines are such that all bunches arrive simultaneously June 20, 2013Gollwitzer13

Multiple Beam Lines to Target June 20, Gollwitzer Extracted bunches from Compressor Ring are sent into different length beam lines

Multiple Beams onto Target June 20, Gollwitzer Each beam line enters the target area with an angle to the solenoid axis and will have a path such that the center of the interaction region is on the solenoid’s axis

June 20, Gollwitzer MASS Spreadsheet

Why Multiple Bunches Longitudinal Instability Low frequency running will need to have multiple bunches –4MW/8GeV/15Hz means 6x720kW bunches –1MW/3GeV/75Hz means 15x72kW bunches How many bunches can be brought to the target? June 20, 2013Gollwitzer17 Final Bunch Parameters (Compressor Ring) Initial Ring Bunch Parameters (Accumulator Ring) V. Lebedev: maximum power per bunch

Small Number of Bunches Target Station –Infrastructure –Shielding Last transfer line magnet(s) –Multiple beams will be close together –Focusing the multiple beams –Steering the multiple beams June 20, 2013Gollwitzer18

Some Rings Concerns Stripping –Accumulation of protons from Hminus linac beam –Handling of unconverted beam Intense particle bunches –Instabilities? Seen an example of longitudinal Space charge June 20, 2013Gollwitzer19

Final Focus Beam Line(s) Deliver beam: ring to target IDS-NF design shown Issues (multiple beams) –Collimation –Connection to target area is at “angle” since will need to have helical orbit in solenoid –Last magnetic element location with respect to the target infrastructure –Window(s) Beam vacuum separated from Mercury containment June 20, 2013Gollwitzer20

Summary We understand an upgrade path for Project X to 8 GeV Proton Driver Need to work on rings designs and addressing instabilities Upgrade path for Project X for a 3 GeV Proton Driver is more straight forward Need lots of work to understand 3 GeV proton accumulation Limits of number of beams on target need to be investigated June 20, 2013Gollwitzer21

Backup June 20, 2013Gollwitzer22

Phased Project X Physics * Operating point in range depends on MI energy for neutrinos. ** Operating point in range depends on MI injector slow-spill duty factor (df) for kaon program. Gollwitzer23 Program: Onset of NOvA operations in 2013 Stage-1: 1 GeV CW Linac driving Booster & Muon, n/edm programs Stage-2: Upgrade to 3 GeV CW Linac Stage-3: Project X RDR Stage-4: Beyond RDR: 8 GeV power upgrade to 4MW MI neutrinos kW** kW** 1200 kW2450 kW kW 8 GeV Neutrinos15 kW +0-50kW**0-42 kW* kW** 0-84 kW*0-172 kW* 3000 kW 8 GeV Muon program e.g, (g-2), Mu2e-1 20 kW0-20 kW* kW* 1000 kW 1-3 GeV Muon program, e.g. Mu2e kW1000 kW Kaon Program 0-30 kW** (<30% df from MI) 0-75 kW** (<45% df from MI) 1100 kW1870 kW Nuclear edm ISOL program none0-900 kW kW Ultra-cold neutron program none0-900 kW kW Nuclear technology applications none0-900 kW kW # Programs: Total max power: 735 kW 2222 kW 4284 kW 6492 kW 11870kW June 20, 2013

MASS Parameter Sheet June 20, Gollwitzer