Presentation is loading. Please wait.

Presentation is loading. Please wait.

5 September 2006 John Hart RAL ATLAS physics meeting 1 Preliminary Report on Solenoid Mapping Field mapping completed in first week of August Aim to measure.

Published byChristian Lionel Anthony Modified over 9 years ago

Similar presentations

Presentation on theme: "5 September 2006 John Hart RAL ATLAS physics meeting 1 Preliminary Report on Solenoid Mapping Field mapping completed in first week of August Aim to measure."— Presentation transcript:

1 5 September 2006 John Hart RAL ATLAS physics meeting 1 Preliminary Report on Solenoid Mapping Field mapping completed in first week of August Aim to measure field to 1 in 2000 (10 G in 2 T) “Windmill” measuring machine with 4 arms Driven by pneumatic motors 12 Hall probes on each arm 5 NMR probes, 4 permanent and one on machine Field measured at 4 currents: 5000, 7000, 7730, 7850 A (twice at 7730 A) Analysis at Manchester (Steve Snow and Paul Miyagawa), RAL (JCH) and CERN (Heidi Sandaker)

2 5 September 2006 John Hart RAL ATLAS physics meeting 2 Field Measuring Machine … undergoing tests in laboratory Carriage Hall probes mounted on 4 windmill arms Rails Driven by pneumatic motors Measurements scheduled for July/August

3 5 September 2006 John Hart RAL ATLAS physics meeting 3 Notes on the field mapping Mapping originally scheduled for February, but slippage gave time for work on measuring machine and software Accident after machine installed in solenoid necessitated re-survey and replacement of a few probes 2 weeks set aside for measurement but further delays from cryogenics, CERN power failure … Central NMR planned for normalisation failed Normalise to average of Hall probes Probe calibration to ~1 G up to 1.5 T but only ~10 G at higher fields Hysteresis minimal, not more than a few gauss difference in cycling field Solenoid current stable to within less than 0.1 A Some problem with machine jamming near ends of solenoid Aimed for a series of coarse scans rather than a few fine scans

4 5 September 2006 John Hart RAL ATLAS physics meeting 4 Points measured at 7730 A

5 5 September 2006 John Hart RAL ATLAS physics meeting 5 Analysis of the mapping data Measuring machine output converted to Bz, Br and Bphi (including temperature correction) using calibration results Need to correct for probe alignment errors (~1 mrad) and normalisation Apply corrections from survey measurements including measuring arm axis directions Further corrections for exact probe positions, skew in carriage positioning, … Check consistency of the measurements Combine data and perform geometrical or Fourier-Bessel fit Generate field map for ATLAS analysis

6 5 September 2006 John Hart RAL ATLAS physics meeting 6 Plane zero scans Measuring machine positioned so that each arm in turn is at z=0 and measurements made for 16 values of phi. Possible to check agreement between corresponding probes on each arm After corrections, differences are less than 5 G, often less than 2 G Scan data from 2 August but probe alignments from 7 August, so evidence for stability in alignments. Axis alignments from data (relative to field axis) agree with survey measurements (in IWV coordinates), so conclude field is parallel with IWV axis (to within ~0.2 mrad)

7 5 September 2006 John Hart RAL ATLAS physics meeting 7 Plane zero scans Br for outermost probes (12,24,36 & 48) versus phi

8 5 September 2006 John Hart RAL ATLAS physics meeting 8 Plane zero scans Bphi for outermost probes (12,24,36 & 48) versus phi

9 5 September 2006 John Hart RAL ATLAS physics meeting 9 Plane zero scans |B| for outermost probes (12,24,36 & 48) versus phi - structure not expected from “realistic” model

10 5 September 2006 John Hart RAL ATLAS physics meeting 10 Fine scan in phi Bphi for 3 outermost probes on arm 3 versus phi – after subtraction of return conductor field

11 5 September 2006 John Hart RAL ATLAS physics meeting 11 Plans Continue checks on consistency of measurements: between measurements (including different probes and different currents) with Maxwell’s equations (using Fourier Bessel fits) with geometrical model Develop software to process measurements on unequally spaced z planes Combine measurements and make a best fit (or fits) to the field Generate a field map for ATLAS physics

12 5 September 2006 John Hart RAL ATLAS physics meeting 12 Conclusions The field mapping was completed successfully despite various difficulties Preliminary results indicate that a field map accurate to 1 in 2000 is possible Further work is required to understand the measured field and generate the map

Download ppt "5 September 2006 John Hart RAL ATLAS physics meeting 1 Preliminary Report on Solenoid Mapping Field mapping completed in first week of August Aim to measure."

Similar presentations

Paul Soler,8 June 2000 RAL and Univ. of Glasgow ALIGNMENT ISSUES FOR RICH 2.

Paul Soler,8 June 2000 RAL and Univ. of Glasgow ALIGNMENT ISSUES FOR RICH 2.
Field measurements of QEA magnets at KEK Mika Masuzawa May 30, 2006.

Field measurements of QEA magnets at KEK Mika Masuzawa May 30, 2006.
The MICE Target Lara Howlett University of Sheffield.

The MICE Target Lara Howlett University of Sheffield.
Results of the ATLAS Solenoid Magnetic Field Map

Results of the ATLAS Solenoid Magnetic Field Map
TPC status Marian Ivanov. Outlook TPC performance ExB correction Alignment Nonlinearities and edge effects Drift velocity calibration.

TPC status Marian Ivanov. Outlook TPC performance ExB correction Alignment Nonlinearities and edge effects Drift velocity calibration.
Integrating a Short Range Laser Probe with a 6-DOF Vertical Robot Arm and a Rotary Table Theodor Borangiu Anamaria Dogar

Integrating a Short Range Laser Probe with a 6-DOF Vertical Robot Arm and a Rotary Table Theodor Borangiu Anamaria Dogar
CM-18 June 20071 The Measurement and Monitoring of the Field from the MICE Magnets Michael A Green Lawrence Berkeley Laboratory, Berkeley, USA Frank Filthaut.

CM-18 June The Measurement and Monitoring of the Field from the MICE Magnets Michael A Green Lawrence Berkeley Laboratory, Berkeley, USA Frank Filthaut.
29 June 2004Paul Dauncey1 ECAL Readout Tests Paul Dauncey For the CALICE-UK electronics group A. Baird, D. Bowerman, P. Dauncey, C. Fry, R. Halsall, M.

29 June 2004Paul Dauncey1 ECAL Readout Tests Paul Dauncey For the CALICE-UK electronics group A. Baird, D. Bowerman, P. Dauncey, C. Fry, R. Halsall, M.
Zachary Wolf Undulator Tuning June 17, 2008 Undulator Tuning Status Z. Wolf, S. Anderson, R. Colon, S. Jansson, S.Kaplunenko,

Zachary Wolf Undulator Tuning June 17, 2008 Undulator Tuning Status Z. Wolf, S. Anderson, R. Colon, S. Jansson, S.Kaplunenko,
Isaac Vasserman Magnetic Measurements and Tuning 10/14/2004 1 I. Vasserman LCLS Magnetic Measurements and Tuning.

Isaac Vasserman Magnetic Measurements and Tuning 10/14/ I. Vasserman LCLS Magnetic Measurements and Tuning.
1 Zachary Wolf 1 Undulator Tuning Status June 9, 2009 Undulator Tuning Status Z. Wolf, S. Anderson, R. Colon, S. Jansson, D. Jensen,

1 Zachary Wolf 1 Undulator Tuning Status June 9, 2009 Undulator Tuning Status Z. Wolf, S. Anderson, R. Colon, S. Jansson, D. Jensen,
A U.S. Department of Energy Office of Science Laboratory Operated by The University of Chicago Argonne National Laboratory Office of Science U.S. Department.

A U.S. Department of Energy Office of Science Laboratory Operated by The University of Chicago Argonne National Laboratory Office of Science U.S. Department.
Realistic Model of the Solenoid Magnetic Field Paul S Miyagawa, Steve Snow University of Manchester Objectives Closed-loop model Field calculation corrections.

Realistic Model of the Solenoid Magnetic Field Paul S Miyagawa, Steve Snow University of Manchester Objectives Closed-loop model Field calculation corrections.
Zachary Wolf LCLS Undulator October 30, 2007 1 LCLS Undulator Tuning And Fiducialization Zack Wolf, Yurii Levashov, Achim.

Zachary Wolf LCLS Undulator October 30, LCLS Undulator Tuning And Fiducialization Zack Wolf, Yurii Levashov, Achim.
Update Hardware for conductive cooling of the quench resistors has been fabricated at LBNL. Preparation for installation to start this week. Installation.

Update Hardware for conductive cooling of the quench resistors has been fabricated at LBNL. Preparation for installation to start this week. Installation.
A U.S. Department of Energy Office of Science Laboratory Operated by The University of Chicago Argonne National Laboratory Office of Science U.S. Department.

A U.S. Department of Energy Office of Science Laboratory Operated by The University of Chicago Argonne National Laboratory Office of Science U.S. Department.
Zachary Wolf Undulator Oct 12, 2006 1 LCLS Undulator Tuning Zack Wolf, Yurii Levashov, Achim Weidemann, Seva Kaplounenko,

Zachary Wolf Undulator Oct 12, LCLS Undulator Tuning Zack Wolf, Yurii Levashov, Achim Weidemann, Seva Kaplounenko,
Solenoid Magnetic Field Mapping Paul S Miyagawa University of Manchester Objectives Mapper machine Mapper software Simulation Corrections Fitting Future.

Solenoid Magnetic Field Mapping Paul S Miyagawa University of Manchester Objectives Mapper machine Mapper software Simulation Corrections Fitting Future.
Solenoid Magnetic Field Mapping Paul S Miyagawa University of Manchester Introduction Mapper machine Mapper software - Simulation - Corrections - Fitting.

Solenoid Magnetic Field Mapping Paul S Miyagawa University of Manchester Introduction Mapper machine Mapper software - Simulation - Corrections - Fitting.
Coil Manufacture, Assembly and Magnetic Calibration Facility for Warm and Cold Magnetic Measurements of LHC Superconducting Magnets CERN AT-MTM 1 / 21.

Coil Manufacture, Assembly and Magnetic Calibration Facility for Warm and Cold Magnetic Measurements of LHC Superconducting Magnets CERN AT-MTM 1 / 21.

Similar presentations

Ads by Google