RHUL Physics Department TWiki> PP/JAI Web>Simulation>PythonTracker (revision 13)

- No reliance on any proprietary software, or on any code that requires a license to use
- Lucretia's dependence on Matlab leads to the frustrating requirement for each and every user/computer to have a valid Matlab license. In situations where a student (for example) would just like to make a few quick calculations, this is obviously not satisfactory.
- The license for the code produced here will be the GPL, and care will be taken to ensure that any included libraries/executables, are also compliant with the GPL. To comply with this philosophy, there will be no native input format for beamline lattice files. Instead, the Universal Accelerator Parser will allow the use of a significant number of the most popular lattice formats as if they were native.

- Build it to be light
- A package to quickly calculate beamline R-matrices, Twiss parameters, etc. may be constructed to be very small and light, therefore the philosophy behind the design of this code is to build a small, light framework for the most commonly used functions, and to allow expansion of the complexity by importing additional modules/classes.

A list of the capabilities required in the first version ("RC1" in linux jargon) can be found here.

- Tracking
- Transport matrices (linear & non-linear)
- Easy calculation of the linear R matrices for a single element (calculated on construction of the beamline element), and for a series of elements.
- Calculation of the appropriate higher-order matrices for any elements requiring them.

- Twiss parameters.
- Propagation of the Twiss parameters (alpha, beta, phase, dispersion, dispersion_prime, and the sigma matrix) through a system of elements.

- Multi-species
- Electron or positron bunches. Extension to other species later (p, pbar, ions, ...)

- Loading of lattice formats in AML, as well as all the other formats understood by UAP.

- Collective effects
- Longitudinal and transverse cavity wakes, represented as both frequency and time domain fields.
- Synchrotron losses (yeah, yeah, I know SR isn't a collective effect), including average and stochastic effects.

- Realistic diagnostics
- Add realistic effects to the BPM output (such as losing resolution if charge is lost upstream).
- A full calculation of the BPM signals -- including phase noise, gain changes, etc. -- for diagnostics studies.

Physics Notes -- Here you can find definitions of the beam coordinate system, R-matrices, and a full description and derivation of the Hamiltonians used to define the dynamics in each of the accelerator elements.

Element-by-element comparison with Lucretia

-- StephenMolloy - 04 Jun 2010

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Topic revision: r13 - 16 Apr 2012 - webmanip_5fw2sw_2esh

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