Proton Position Tracking X. Ding, UCLA Aug. 11, 2009.

Slides:



Advertisements
Similar presentations
Graphing Data on the Coordinate Plane
Advertisements

Comparison of Particle Production between MARS and FLUKA (Update) X. Ding, UCLA Target Studies Aug. 8, /8/13.
Test practice Multiplication. Multiplication 9x2.
Parallel and Perpendicular Lines
6/30/20091 Meson Production with Different Directional Incident Proton Beam X. Ding, D. Cline, UCLA H. Kirk, J. S. Berg, BNL.
Meson Production at 8 GeV for IDS120h X. Ding, UCLA Target Studies, Dec. 27, 2011.
Meson Production Comparison between Hg and Ga at 8 GeV X. Ding, UCLA Target Studies, Oct. 04, 2011.
Meson Production Comparison between HG and GA at 8 GeV (Update) X. Ding, UCLA Target Studies, Oct. 18, 2011.
Particle Production of a Carbon/Mercury Target System for the Intensity Frontier X. Ding, UCLA H.G. Kirk, BNL K.T. McDonald, Princeton Univ MAP Spring.
Comparison of Power Depositions Xiaoping Ding UCLA Target Studies Jul. 13, 2010.
Operated by Brookhaven Science Associates for the U.S. Department of Energy A Pion Production and Capture System for a 4 MW Target Station X. Ding, D.
Proton Position Tracking X. Ding, D. Cline UCLA H. Kirk, J. S. Berg, BNL Phone Meeting on Aug. 25, 2009.
Harold G. Kirk Brookhaven National Laboratory Meson Production Efficiencies IDS Target Meeting CERN December 17, 2008.
1 Meson Production Simulations X. Ding, D. B. Cline UCLA H. Kirk, J. S. Berg BNL N u F a c t th International Workshop on Neutrino Factories, Superbeams.
Optimization of Target Parameters for a Tungsten Target (Half Density) at 8GeV X. Ding Target Studies Nov. 2, 2010.
1 Muon Yield Comparisons for Different ICOOL Versions and Lattices X. Ding Front End, Nov. 23, 2010.
Harold G. Kirk Brookhaven National Laboratory Target Baseline IDS-NF Plenary CERN March 23-24, 2009.
1Managed by UT-Battelle for the U.S. Department of Energy NMFCC Friday Meeting 10 Apr 2009 Neutrino Factory Nozzle Layouts V.B. Graves NFMCC Friday Meeting.
IDS-NF Target Studies H. Kirk (BNL) July 8, 2009.
1 Comparison of Power Depositions X. Ding, D. B. Cline, UCLA H. Kirk, J. S. Berg, BNL Collaboration Meeting July 2, 2010.
Comparison of Power Deposition in SC1 Coil Xiaoping Ding UCLA Target Studies Jun. 29, 2010.
1 3D Simulations for the Elliptic Jet W. Bo (Aug 12, 2009) Parameters: Length = 8cm Elliptic jet: Major radius = 0.8cm, Minor radius = 0.3cm Striganov’s.
Power Deposition in SC1 Coil Xiaoping Ding UCLA Target Studies Apr. 20, 2010.
Harold G. Kirk Brookhaven National Laboratory Meson Production Calculations 1 st Princeton/Oxford High-Power Targets Workshop Oxford May 1-2, 2008.
Operated by Brookhaven Science Associates for the U.S. Department of Energy Optimized Parameters for a Mercury Jet Target X. Ding, D. Cline, UCLA, Los.
Meson Productions for Target System with GA/HG Jet and IDS120h Configuration X. Ding (Presenter), D. Cline, UCLA H. Kirk, J.S. Berg, BNL Muon Accelerator.
Jornadas LIP 2008 – Pedro Ramalhete. 17 m hadron absorber vertex region 8 MWPCs 4 trigger hodoscopes toroidal magnet dipole magnet hadron absorber targets.
Assigned work: pg. 468 #3-8,9c,10,11,13-15 Any vector perpendicular to a plane is a “normal ” to the plane. It can be found by the Cross product of any.
Group 2.  Students in grade 12 or 1 st year university (depends on the country and the program)  Prerequisite knowledge:  Electric and magnetic fields.
Shifting the Position of Focal Point of Proton Beam Relative to Intersection Point with Fixed Emittance for IDS120h Configuration X. Ding, UCLA Target.
Harold G. Kirk Brookhaven National Laboratory Target Considerations for Nufact and Superbeams ISS Meeting RAL April 26, 2006.
1 Energy Deposition of 4MW Beam Power in a Mercury Jet Target X. Ding, D. B. Cline UCLA H. Kirk, J. S. Berg BNL The International Design Study for the.
Particle Production at 3 GeV (update) X. Ding, UCLA Target Studies Sept. 23, /23/13.
Proton Delivery to Target Keith Gollwitzer Accelerator Division Fermilab MAP 2012 Winter Meeting March 7, 2012.
By: Student #2. Four properties  Equidistant  Have same slope  Do no intersect  Lies on the same plane.
Vocabulary polar coordinate system pole polar axis polar coordinates polar equation polar graph.
Gallium as a Possible Target Material for a Muon Collider or Neutrino Factory X. Ding, D. Cline, UCLA, Los Angeles, CA 90095, USA J.S. Berg, H.G. Kirk,
Angles and Parallel Lines
Particle Production of Carbon Target with 20Tto2T5m Configuration at 6.75 GeV (Updated) X. Ding, UCLA Target Studies April 3, /3/14.
Beam Dump for Carbon Target with IDS120h Configuration at 6.75 GeV (Updated) X. Ding, UCLA Target Studies Jan. 24, /24/14.
Particle Production with Carbon Target and IDS120j Configuration at 3 GeV (update) X. Ding, UCLA Target Studies Nov. 14, /14/13.
Meson Production of Carbon Target at 3 GeV X. Ding, UCLA Target Studies 17/18/13.
Carbon Target Design and Optimization for an Intense Muon Source X. Ding, UCLA H.G. Kirk, BNL K.T. McDonald, Princeton Univ MAP Winter Collaboration.
Learning Objectives : 1.To recognise projectile-like problems 2.To check understanding via motion graphs 3.To set the scene for harder problems Book References.
Lesson 18Power Up DPage 114 Lines and Angles. Lines – No end, extends in both directions forever. Segments – Two endpoints, length can be measured. Lines.
GEOMETRY 4.8A Identify and describe right, acute, and obtuse angles.
Meson Production at Low Proton Beam Energy (Update) X. Ding, UCLA Target Studies May 9, /9/113.
90 Vertical Horizontal Oblique line a b Angles a + b = 180 o Angles at a Point b = 115 o Angle a = 180 – 115 = 65 o.
2-2 Graphing on a Coordinate Plane Warm Up Warm Up Lesson Presentation Lesson Presentation Problem of the Day Problem of the Day Lesson Quizzes Lesson.
The Coordinate Plane. We have worked with both horizontal and vertical number line s Horizontal
Optimized Target Parameters and Meson Production by IDS120h with Focused Gaussian Beam and Fixed Emittance (Update) X. Ding, UCLA AAG June 27, /27/12.
Parallel & Perpendicular Lines Parallel Lines: – Describes lines in the same plane that never cross or intersect. They are marked using arrows. Perpendicular.
X. Ding, UCLA MAP Spring 2014 Meeting May 2014 Fermilab
Graph Rational Numbers on a Coordinate Plane…
Dummy Stick model with expected contributors
DT Local Reconstruction on CRAFT data
VERTICAL LINE TEST GRAPHS can represent functions.
Determining the horizontal and vertical trace of the line
Meson Production Efficiencies
12.1: Representations of Three-Dimension Figures
Plotting Points Guided Notes
4.2 Part 2 Horizontal and Vertical Lines
VERTICAL LINE TEST GRAPHS can represent functions.
Warm Up Determine the domain and range for each relation. Tell me if it’s a function or not a function x –2 –1 1 2 y 3 –3 –5 {(0, 1), (1, 2), (1, 3), (2,
TRANSVERSAL VOCABULARY
Studies of crossing angle and SR effects for CLIC TENTATIVE
Dots and Cross Products of Vectors in Space
monochromatic light source
Alejandro Castilla CASA/CAS-ODU
First results of proton spin tracking in a figure-8 ring
Presentation transcript:

Proton Position Tracking X. Ding, UCLA Aug. 11, 2009

Multiple Proton Beam Entry Directions The Required Beam Position at z=-75cm to Keep Same Crossing Angle and 24 0 Roll Angle Apart at z=-37.5cm p0 p4 p8 p12 jet (0, 3.64) y x Previous Incident Beam at z=-75cm for optimization p1 p2 p3 p5 p6 p7 p9 p10 p11 p13 p14 4.3% higher in meson production at p11 than at p6  =0 0  =96 0  =264 0  =192 0

X-Z plot of launched protons which can meet vertical plane at y=-14cm and no KE change

Beginning position where the KE is changed