Colliding Beam Notes - 1982

CBN 82-44

FORTRAN Optimization Techniques
G. Aharonian

CBN 82-43

Method for Deducing Particle Distribution Functions from Scraper Data
M. Billing

CBN 82-42

Improved ZTTL/Q and G Calculations for CESR Cavities
Eric Blum
(The program SUPERFISH is used to find resonant modes.)

CBN 82-41

Apertures and Luminosity for CESR-MOD
N. Mistry
(Achievable luminosity (per bunch) using micro-beta.)

CBN 82-40

Vertical Aperture Limitation in CESR and an Inexpensive Enlargement Program
J. Seeman

CBN 82-39

NO PAPER

CBN 82-38

A Discussion of Injection Schemes for CESR-MOD
N.Mistry and D. Rice

CBN 82-37

An Injection Scheme for CESR-MOD or CESR
N. Mistry
(Center-line injection of full-intensity bunches.)

CBN 82-36

A Practical Microbeta Scheme for CESR
S. Peck and J. Seeman

CBN 82-35

Effects of Narrowband Resonances on CESR II Stability
Robert Siemann
(Bunch length of 2.3mm for CESR II.)

CBN 82-34

NO PAPER

CBN 82-33

An All-Purpose Colliding Beam Facility at Brookhaven
Richard Talman
(Proposal to build CESRBEL.)

CBN 82-32

Enhanced Damping for Large Amplitude Particles in a Storage Ring using Quadrupole Wigglers
J. Seeman

CBN 82-31

Generalization of the Hofmann-Zotter Combined-Function Formulation for Application to CESR II
Lloyd Sakazaki
(Problematical aspects of the dynamic aperture of the CESR II lattice. Documentation of COMBIN.)

CBN 82-30

Is Microbeta Worth the Trouble
R. Talman

CBN 82-29

Analysis of Non-Linear Accelerator Lattices
R. Talman

CBN 82-28

A Measurement of the Dynamic Aperture in CESR
N. Mistry, S. Peck, J. Seeman and R. Talman

CBN 82-27

Study of Transverse and Longitudinal Single Beam Stability in CESR II
R. Siemann

CBN 82-26

CESR II a Prospectus
M. Tigner

CBN 82-25

Longitudinal Stability of a Bunch in CESR II at 20 GeV
John Seeman
(The longitudinal tracking program TRACKH.FLX.)

CBN 82-24

Suggestion for a Maximal Luminosity Upsilon &/J Factory
Maury Tigner
(Independent controlof the number of bunches, crossing points, emittance, decrement and beam energy.)

CBN 82-23

Interim Report of Bunch Lengthening in CESR II at Low Energy
J. Seeman

CBN 82-22

LBSR, The Linac Boosted Storage Ring
Maury Tigner
(A high energy, high luminosity, high duty factor collider with small energy spread.)

CBN 82-21

Exact Solution of Some Simple Non-Linear Lattice Problems
Richard Talman
(An iterative lattice which finds the one dimensional motion of a particle in a repetitive lattice. )

CBN 82-20

High Energy Laser Propagation Code
G. Aharonian

CBN 82-19

A Comparison of Interleaved Sextupole Compensation and pi Sextupole Compensation
K. Adams

CBN 82-18

Test of a Collective Electron Driven Linac at CESR
J. Seeman

CBN 82-17

Collective Electron Driven Linac for High Energy Physics
J. Seeman

CBN 82-16

Proposal for Multi-Bunch Operation of CESR
R. Littauer

CBN 82-15

CESR Beam Test Calculations
Robert Siemann
(Calculations about single pass behavior and multibunch and multiturn behavior are described.)

CBN 82-14

Some Vertical Dispersion Generators in CESR
John Seeman
(Using the tracking program SOLCOM.PEN.)

CBN 82-13

The Projection Approach to Solenoid Compensation
S. Peggs

CBN 82-12

CESR Tune Tracker (TT)
C. Dunnam

CBN 82-11

Analytic Integration on the Wilson Computer
G. Aharonian

CBN 82-10

First Test of Harmonic Betatron Spin Matching in a CESR II Lattice with Field Errors
S. Holmes and K. Steffen

CBN 82-9

Polarization Estimate on CESR II without Synchrotron Motion
J. Buon

CBN 82-8

Note on CESR II Optics and Spin Matching Program
K. Steffen

CBN 82-7

On Lattice and Spin Matching for CESR II
K. Steffen
(Layout of CESR II interscting region.)

CBN 82-6

Three Microbeta Possibilities for CESR
J. Seeman, S. Peck and K. Steffen
(Beta* vert of 1cm.)

CBN 82-5

Wakefield an Losses for CESR Cavity
R. Siemann

CBN 82-4

Polarization at the Z⁰ for CESR II
M. Tigner

CBN 82-3

Possible Increase of CESR Luminostiy through Tighter IR Focussing and Tune Shift Enhancement by Stronger Damping with Wigglers
M. Tigner

CBN 82-2

A New Spin Rotator for Electron Storage Rings Allowing both Relative Helicities
J. Seeman

CBN 82-1

Observations, a Simple Theory, and Predictions for the Luminosity Limit in CESR
J. Seeman, S. Peck and D. Rice