WP3: The Neutrino Factory Costing Status Ajit Kurup CERN Costing Workshop 8 th December 2011.

Slides:

Advertisements

Similar presentations

September 23, 2005ISS Plenary Meeting - Zisman International Scoping Study Accelerator Working Group: Tasks and Plans Michael S. Zisman Center for Beam.

Advertisements

Muon Front End Buncher, Phase Rotation, Cooling Schematics & CAD model based on MICE Cavities Alan Grant Daresbury (April 10, 2012)

Superconducting Spoke Resonator Cavities and Cryomodules

Participants WP3total Imperial College CERN STFC University Warwick CRNS University Oxford6 6 Total Euro  - WP3.

1 Optimization of baseline front end for a neutrino factory David Neuffer FNAL (August 19, 2009)

Bunched-Beam Phase Rotation- Variation and 0ptimization David Neuffer, A. Poklonskiy Fermilab.

Costing the Target Ajit Kurup May 17, Page 2 Costing the Target Ajit Kurup Costing of the target for the RDR needs to be done using the CERN costing.

1 RAL + Front End Studies International Design Study David Neuffer FNAL (January 5, 2009)

1 Front End Studies- International Design Study Update David Neuffer FNAL February 2, 2010.

Μ-Capture, Energy Rotation, Cooling and High-pressure Cavities David Neuffer Fermilab.

Costing Meeting Ajit Kurup 13 th June Page 2 Costing Meeting 13 th June 2011 Ajit Kurup Summary of CERN costing workshop. Proposed Level 3 breakdown.

MuCool Test Area RF Workshop 111/15/2010 Muons, Inc. Loaded Pillbox Cavity Milorad Popovic & Katheryn Decker French (with Mike, Chuck, Katsuya, Al and.

The Front End MAP Review Fermi National Accelerator Lab August 24-26, 2010 Harold G. Kirk Brookhaven National Laboratory.

-Factory Front End Phase Rotation Optimization David Neuffer Fermilab Muons, Inc.

FFAG Concepts and Studies David Neuffer Fermilab.

Ajit Kurup, Imperial College London. Neil Bliss, Norbert Collomb, Alan Grant, STFC/DL, Daresbury. Costing Methodology and Status of the Neutrino Factory.

ABSTRACT The International Design Study for the Neutrino Factory (IDS- NF) baseline design 1 involves a complex chain of accelerators including a single-pass.

Institutional Logo Here Harold G. Kirk DOE Review of MAP (FNAL August 29-31, 2012)1 The Front End Harold Kirk Brookhaven National Lab August 30, 2012.

Emittance measurement: ID muons with time-of-flight Measure x,y and t at TOF0, TOF1 Use momentum-dependent transfer matrices to map  path Assume straight.

Muons within Acceleration Acceptance Cuts at End of Transverse Cooling Channel TOWARDS A GLOBAL OPTIMIZATION OF THE MUON ACCELERATOR FRONT END H. K. Sayed,

Tracking Studies of Phase Rotation Using a Scaling FFAG Ajit Kurup FFAG07 12 th – 17 th April 2007.

Ajit Kurup, C. Bontoiu, M. Aslaninejad, J. Pozimski, Imperial College London. A.Bogacz, V. S. Morozov, Y.R. Roblin Jefferson Laboratory K. B. Beard, Muons,

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

Source Group Bethan Dorman Paul Morris Laura Carroll Anthony Green Miriam Dowle Christopher Beach Sazlin Abdul Ghani Nicholas Torr.

Neutrino Factory International Scoping Study Machine Group Chris Prior RAL/ASTeC and University of Oxford.

UKNF OsC RAL – 30 st January 2012 UKNF - Status, high lights, plans J. Pozimski.

Quantitative Optimisation Studies of the Muon Front-End for a Neutrino Factory S. J. Brooks, RAL, Chilton, Oxfordshire, U.K. Tracking Code Non-linearised.

Bunched-Beam Phase Rotation for a Neutrino Factory David Neuffer Fermilab.

Bunched-Beam Phase Rotation and FFAG -Factory Injection David Neuffer Fermilab.

Front-End Design Overview Diktys Stratakis Brookhaven National Laboratory February 19, 2014 D. Stratakis | DOE Review of MAP (FNAL, February 19-20, 2014)1.

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.

UKNF OsC RAL – 31 st January 2011 UKNF - Status, high lights, plans J. Pozimski.

Status of Scaling FFAG Phase Rotation ICOOL Simulations Ajit Kurup ISS Machine Group Meeting 27 th July 2006.

Acceleration System Comparisons S. Machida ASTeC/RAL September, 2005, ISS meeting at CERN.

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 ,

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

-Factory Front End Phase Rotation Gas-filled rf David Neuffer Fermilab Muons, Inc.

Recent Progress Toward a Muon Recirculating Linear Accelerator S.A.Bogacz, V.S.Morozov, Y.R.Roblin 1, K.B.Beard 2, A. Kurup, M. Aslaninejad, C. Bonţoiu,

Nick Walker – SA meeting KEK Treaty Points and Costing Guidance Nick Walker 1 st System Area Managers Meeting KEK –

Harold G. Kirk Brookhaven National Laboratory Accelerator and Beams Working Group 3 NUFACT06 Irvine, Ca. August 24-30, 2006 Conveners: R. Garoby, H. Kirk.

NEUTRINO DETECTORS Cutting-Edge Accelerator Research for a Neutrino Factory and Other Applications Ajit Kurup for the FETS and UKNF Collaborations Cutting-Edge.

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.

FFAG Studies at RAL G H Rees. FFAG Designs at RAL Hz, 4 MW, 3-10 GeV, Proton Driver (NFFAGI) Hz,1 MW, GeV, ISIS Upgrade (NFFAG) 3.

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

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.

Muon Collider R&D Plans & New Initiative 1.Introduction 2.Muon Collider Schematic 3.Conceptual Breakthrough 4.Ongoing R&D 5.Muon Collider Task Force 6.Muon.

Operated by JSA for the U.S. Department of Energy Thomas Jefferson National Accelerator Facility Muon Collider Design Workshop, BNL, December 1-3, 2009.

Institutional Logo Here July 11, 2012 Muon Accelerator Program Advisory Committee Review (FNAL July 11-13, 2012)1 The Front End.

April 25, 2006ISS Plenary Meeting: RAL - Zisman International Scoping Study Accelerator Working Group: Status and Plans Michael S. Zisman Center for Beam.

Proton Driver Design Keith Gollwitzer Fermilab February 19, 2014.

February 28, 2011NF Report - Zisman1 Neutrino Factory Design Overview and IDS-NF Status Michael S. Zisman* Center for Beam Physics Accelerator & Fusion.

1 Muon Capture for a Muon Collider David Neuffer July 2009.

1 Alternative options for beam cooling for a muon accelerator front-end Diktys Stratakis Physics Department Brookhaven National Laboratory Front-End Phone.

Bunched-Beam Phase Rotation - Ring Coolers? - FFAGs? David Neuffer Fermilab.

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

Operated by JSA for the U.S. Department of Energy Thomas Jefferson National Accelerator Facility Alex Bogacz Status and Plans for Linac and RLAs.

Operated by JSA for the U.S. Department of Energy Thomas Jefferson National Accelerator Facility Alex Bogacz 1 Status of Baseline Linac and RLAs Design.

1 Front End – gas-filled cavities David Neuffer May 19, 2015.

1 Front End – present status David Neuffer December 4, 2014.

Operated by JSA for the U.S. Department of Energy Thomas Jefferson National Accelerator Facility Alex Bogacz IDS- NF Acceleration Meeting, Jefferson Lab,

EUROnu Review: 14 th April 2011 Summary of WP3 J. Pozimski.

Final Results from IDS-NF Study NUFACT14 Workshop, Glasgow on behalf of the IDS-NF Collaboration Paul Soler, 26 August 2014.

UK Neutrino Factory Conceptual Design

+-- Collider Front end- Balbekov version

Progress on the Linac and RLAs

The Accelerator Complex from the International Design Study

Electron Source Configuration

Morteza Aslaninejad Cristian Bontoiu Juergen Pozimski

Presentation transcript:

WP3: The Neutrino Factory Costing Status Ajit Kurup CERN Costing Workshop 8 th December 2011

Page 2 WP3: The Neutrino Factory Costing Status CERN Costing Workshop 8 th December 2011 Ajit Kurup Progress since last workshop. Go over the PBS and CFPs for each subsystem and outline the key pieces of information needed for the costing (input into spreadsheets for uploading to the Costing Tool), schematic drawings, etc. Thanks to Neil Bliss and Norbert Collomb for their engineering input. –I will show some slides that Neil prepared. –Norbert will present work being done on the FFAG and decay rings. Areas where we need additional support. Future plan. Introduction

Page 3 WP3: The Neutrino Factory Costing Status CERN Costing Workshop 8 th December 2011 Ajit Kurup Level 3 Breakdown Structure

Page 4 WP3: The Neutrino Factory Costing Status CERN Costing Workshop 8 th December 2011 Ajit Kurup Ion source to the downstream face of the last magnet of the final focus. –The building housing the final focus is part of the TCD. Ancillary buildings and services for the final focus are included in the PD. –All transfer lines must be included (e.g. transfer line to the final focus.) SPL + rings (Important for EUROnu) –R. Garoby and S. Gillardoni ProjectX + rings –K. Gollwitzer RAL –J. Pozimski, J. Pasternak and J. Thomason The Proton Driver

Page 5 WP3: The Neutrino Factory Costing Status CERN Costing Workshop 8 th December 2011 Ajit Kurup Proton Driver Breakdown Structure

Page 6 WP3: The Neutrino Factory Costing Status CERN Costing Workshop 8 th December 2011 Ajit Kurup From the downstream face of the last magnet of the final focus to the downstream face of the last magnet of the last magnet of the decay section. –Must include space for the final focus and space for H&S for final focus but actual H&S are included in PD. Solid target –R. Edgecock Powder target –C. Densham Liquid target (baseline design and main focus) –H. Kirk and K. MacDonald –Capture system H. Kirk and K. MacDonald and B. Weggle Decay section –C. Rogers The Target, Capture and Decay System

Page 7 WP3: The Neutrino Factory Costing Status CERN Costing Workshop 8 th December 2011 Ajit Kurup Target, Capture and Decay Breakdown Structure

Page 8 WP3: The Neutrino Factory Costing Status CERN Costing Workshop 8 th December 2011 Ajit Kurup From the downstream face of the last magnet of the decay section to the downstream face of the last module of the cooling section. Buncher, phase-rotator and cooling –G. Prior and C. Rogers The Muon Front-end

Page 9 WP3: The Neutrino Factory Costing Status CERN Costing Workshop 8 th December 2011 Ajit Kurup Muon Front End Breakdown Structure

Page 10 WP3: The Neutrino Factory Costing Status CERN Costing Workshop 8 th December 2011 Ajit Kurup Buncher Breakdown Structure

Buncher Buncher section total length 33m 33 normal conducting RF cavities and 44 superconducting coils Cavities organised in 13 groups, each group with the same RF frequency

Page 12 WP3: The Neutrino Factory Costing Status CERN Costing Workshop 8 th December 2011 Ajit Kurup Phase-Rotator Breakdown Structure

Phase Rotation Two Cells Phase Rotation section consists of 56 cells 0.75m in length Total section length 42m 56 normal conducting RF cavities and 56 superconducting coils Cavities organised in 15 groups of the same RF frequency over range – MHz, gradient 12 MV/m. Cavity and coil length 0.5m

Page 14 WP3: The Neutrino Factory Costing Status CERN Costing Workshop 8 th December 2011 Ajit Kurup Cooling Channel Breakdown Structure

Cooling Cooling section consists of 100 cells 0.75m in length Total section length 75m 100 normal conducting RF cavities and 100 superconducting coils Cavities RF frequency MHz, gradient 15 MV/m. Cavity length 0.5m, Coil length 0.15m Two Cells Be coated

Page 16 WP3: The Neutrino Factory Costing Status CERN Costing Workshop 8 th December 2011 Ajit Kurup From the downstream face of the last module of the cooling section to the front face of the first magnet of the decay ring injection system. Linac, RLA 1 and RLA 2 –A. Kurup Transfer lines to the FFAG –J.S. Berg FFAG –J.S. Berg and N. Bliss μ+ μ- transfer lines to the decay rings –J.S. Berg The Muon Acceleration System

Page 17 WP3: The Neutrino Factory Costing Status CERN Costing Workshop 8 th December 2011 Ajit Kurup Muon Acceleration Breakdown Structure

Pre-linac and RLAs RLA I RLA II Pre-linac 244 MeV 900 MeV 3.6 GeV 12.6 GeV 86 m 0.6 GeV/pass 255 m 2 GeV/pass 0.9 GeV 3.6 GeV 202 m Beam enters both RLAs at the linac centre and exits at the right hand side. 4.5 passes in each RLA.

Page 19 WP3: The Neutrino Factory Costing Status CERN Costing Workshop 8 th December 2011 Ajit Kurup Linac Breakdown Structure

Pre-linac ( MeV) 1.5 Tesla solenoid 2 Tesla solenoid Cavity R = 230 mm Gradient 15 MV/m 202 m 24 x 3m cryogenic modules 26 x 5m cryogenic modules 3000 mm 5000 mm 72 m 0 m 72 m 130 m µ beams

Page 21 WP3: The Neutrino Factory Costing Status CERN Costing Workshop 8 th December 2011 Ajit Kurup Transfer Line Breakdown Structure

Page 22 WP3: The Neutrino Factory Costing Status CERN Costing Workshop 8 th December 2011 Ajit Kurup RLA Breakdown Structure

Page 23 WP3: The Neutrino Factory Costing Status CERN Costing Workshop 8 th December 2011 Ajit Kurup RLA Breakdown Structure

RLA 1 Arc 1 and Arc GeV 2.4 GeV 1.2 GeV 2.4 GeV side view 300° 4 x dipoles for vertical offset 2 x 30° dipoles 20 x 15° dipoles 18 x dipoles 37 quadrupoles 35 x quadrupoles 2 x 30° dipoles

RLA 1 Arc 2 and Arc GeV 3 GeV 1.8 GeV 3 GeV side view

Extraction - Injection Lines 1 m 1.75 m

Pre-Linac and RLA I to RLA II … Multistory configuration 3 GeV 1.8 GeV 1.2 GeV 3.6 GeV 244 MeV 900 MeV 2.4 GeV

Page 28 WP3: The Neutrino Factory Costing Status CERN Costing Workshop 8 th December 2011 Ajit Kurup Transfer Line Breakdown Structure

Page 29 WP3: The Neutrino Factory Costing Status CERN Costing Workshop 8 th December 2011 Ajit Kurup RLA 2 Breakdown Structure

Page 30 WP3: The Neutrino Factory Costing Status CERN Costing Workshop 8 th December 2011 Ajit Kurup Transfer Line Breakdown Structure

Page 31 WP3: The Neutrino Factory Costing Status CERN Costing Workshop 8 th December 2011 Ajit Kurup FFAG Breakdown Structure

FFAG RF Source & Distribution

Page 33 WP3: The Neutrino Factory Costing Status CERN Costing Workshop 8 th December 2011 Ajit Kurup FFAG to Decay Rings Transfer Line Breakdown Structure

Page 34 WP3: The Neutrino Factory Costing Status CERN Costing Workshop 8 th December 2011 Ajit Kurup Front face of the first magnet of the injection line through the whole ring, including all diagnostic/detector devices and the beam abort. MDR 1 and MDR 2 –D. Kelliher and N. Collomb The Muon Decay Rings

Page 35 WP3: The Neutrino Factory Costing Status CERN Costing Workshop 8 th December 2011 Ajit Kurup Decay Rings Breakdown Structure

Muon Decay Ring RLA II 3.6 – 12.6 GeV Pre Linac 244 – 900 MeV FFAG 12.6 – 25 GeV RLA I 0.9 – 3.6 GeV Cooler Rotator Buncher Target Protons Muons Neutrino Beam Muon Decay Ring Target to Muon Decay Rings

Page 37 WP3: The Neutrino Factory Costing Status CERN Costing Workshop 8 th December 2011 Ajit Kurup RF Cryogenics Vacuum Civil Shielding Areas Where We Need Support

Page 38 WP3: The Neutrino Factory Costing Status CERN Costing Workshop 8 th December 2011 Ajit Kurup Work on inputting information into the spreadsheets and the costing tool. Work out what information (and format) for EDMS. Get engineering input for the components and pricing. Write baseline description document and schedule CERN reviews. June 2012 –Complete design (i.e. no holes) with cost estimates for components. –Costing of all buildings, tunnels and services. Plan