XFEL Simulations with SIMPLEX and GENESIS (Some preliminary results)

Slides:

Advertisements

Similar presentations

First Steps XFEL S2E with CSRtrack Convert elegant particlefile upstream of BC-3 into CSRtrack input CSRtrack results.

Advertisements

X-ray Free Electron lasers Zhirong Huang. Lecture Outline XFEL basics XFEL basics XFEL projects and R&D areas XFEL projects and R&D areas Questions and.

Schemes for generation of attosecond pulses in X-ray FELs E.L. Saldin, E.A. Schneidmiller, M.V. Yurkov The potential for the development of XFEL beyond.

FLASH Simulations SASE Killer Igor Zagorodnov S2E Meeting DESY 24 June 2014.

1 Optimal focusing lattice for XFEL undulators: Numerical simulations Vitali Khachatryan, Artur Tarloyan CANDLE, DESY/MPY

Tessa Charles Australian Synchrotron / Monash University 1 Bunch Compression Schemes for X-band FELs.

Hard X-ray FELs (Overview) Zhirong Huang March 6, 2012 FLS2012 Workshop, Jefferson Lab.

Z. Huang LCLS FAC April Effect of AC RW Wake on SASE - Analytical Treatment Z. Huang, G. Stupakov see SLAC-PUB-10863, to.

GINGER Results for the NEW LCLS Undulator Configuration William M. Fawley Lawrence Berkeley National Laboratory Presented to LCLS Undulator Parameter Workshop.

Overview of Proposed Parameter Changes Linac Coherent Light Source Stanford Synchrotron Radiation Laboratory Stanford Linear Accelerator.

Undulator Specifications Linac Coherent Light Source Stanford Synchrotron Radiation Laboratory Stanford Linear Accelerator Center.

Henrik Loos High Level 17 June 2008 High Level Physics Applications for LCLS Commissioning Henrik Loos.

J. Pflüger / DESY - Radiation Damage Workshop Stanford June 19, 2008 Radiation Damage Study at FLASH using the Diagnostic Undulator J. Pflüger, J. Skupin,

FEL Beam Dynami cs FEL Beam Dynamics T. Limberg FEL driver linac operation with very short electron bunches.

Bright Lights on the Horizon Future Perspectives for Nuclear Resonant Scattering of Synchrotron Radiation Ralf Röhlsberger DESY, Hamburg, Germany.

FEL simulation code FAST Free-Electron Laser at the TESLA Test Facility Generic name FAST stands for a set of codes for ``full physics'' analysis of FEL.

W.S. Graves1 Seeding for Fully Coherent Beams William S. Graves MIT-Bates Presented at MIT x-ray laser user program review July 1, 2003.

TTF2 Start-to-End Simulations Jean-Paul Carneiro DESY Hamburg TESLA COLLABORATION MEETING DESY Zeuthen, 22 Jan 2004.

Yauhen Kot Current Status of XFEL Simulations.

Soft X-ray Self-Seeding in LCLS-II J. Wu Jan. 13, 2010.

The XFEL Beam Dynamics Website Bartosz Poljancewicz News and Updates to the Start-to-End Simulations.

Free-Electron Laser at the TESLA Test Facility More than 50 institutes from 12 countries are involved in the TESLA Project The TESLA Collaboration: Three.

B. FaatzS2E workshop, August 18-22, XFEL simulations with GENESIS Outline: Undulator layout (real/simulated) Matching Genesis.

Beam Dynamics and FEL Simulations for FLASH Igor Zagorodnov and Martin Dohlus Beam Dynamics Meeting, DESY.

SFLASH  SASE interference setup & optics rough estimation 1d estimation 3d estimation summary.

Optics with SC horizontal vertical BC0BC1BC2 XFEL, design optics.

Optimization of Compact X-ray Free-electron Lasers Sven Reiche May 27 th 2011.

Luminosity of the Super-Tau-Charm Factory with Crab Waist D. Shatilov BINP, Novosibirsk TAU’08 Workshop, Satellite Meeting “On the Need for a Super-Tau-Charm.

X-Ray FEL Simulation: Beam Modeling William M. Fawley Center For Beam Physics Lawrence Berkeley National Laboratory ICFA 2003 Workshop.

Harmonic lasing in the LCLS-II (a work in progress…) G. Marcus, et al. 03/11/2014.

SASE optimization with OCELOT Sergey Tomin other co-workers: I. Agapov, G. Geloni, I. Zagorodnov.

NON-WIGGLER-AVERAGED START-TO-END SIMULATIONS OF HIGH-GAIN FREE- ELECTRON LASERS H.P. Freund Science Applications International Corp. McLean, Virginia.

Design Considerations of table-top FELs laser-plasma accelerators principal possibility of table-top FELs possible VUV and X-ray scenarios new experimental.

RMS Dynamic Simulation for Electron Cooling Using BETACOOL He Zhang Journal Club Talk, 04/01/2013.

TAC SASE FEL Project Dr. Ömer Yavaş * Ankara University * On behalf of TAC SASE FEL Study Group Meeting on the Feasibility of X-Band Linac Based FEL Facility.

1 6D Cooling with a Rectilinear FOFO Channel Diktys Stratakis Brookhaven National Laboratory AAC Group Meeting July 18, 2013.

3 February 2010 ILC Damping Ring electron cloud WG effort Mauro Pivi SLAC on behalf of ILC DR working group on e- cloud ILC DR Webex Meeting Jan 3, 2010.

E. Schneidmiller and M. Yurkov FEL Seminar, DESY April 26, 2016 Reverse undulator tapering for polarization control at X-ray FELs.

Harmonic lasing in the LCLSII SXR beamline G. Marcus, Y. Ding, Z. Huang 11/21/2013.

WIR SCHAFFEN WISSEN – HEUTE FÜR MORGEN Enhanced X-ray FEL performance from tilted electron beams Eduard Prat, Simona Bettoni and Sven Reiche :: Paul Scherrer.

Applications of transverse deflecting cavities in x-ray free-electron lasers Yuantao Ding SLAC National Accelerator Laboratory7/18/2012.

Some Simulations for the Proposed Hard X-Ray Self- Seeding on LCLS J. Wu J. Wu et al. Feb. 25, 2011.

Harmonic Generation in a Self-Seeded Soft X-Ray LCLS-II J. Wu Feb. 24, 2010.

Dr Mark Boland Principal Scientist Accelerator Physics AXXS Australian X-band XFEL Source at the Australian Synchrotron On behalf of the Accelerator Science.

SIMULATION FOR TW LCLS-II Tor’s question on the undulator length in the TW FEL senario SASE FEL undulator length 9, 10, and 11:  9 – m, 10.

EUPRAXIA-PISA JUNE 2016 e-Beam-Laser

Yuhui Li How to edit the title slide

Free Electron Lasers (FEL’s)

Experimental Optimization and Characterization of Electron Beams for Generating IR/THz SASE FEL Radiation with PITZ. P. Boonpornprasert, G. Asova1, Y.

F. Villa Laboratori Nazionali di Frascati - LNF On behalf of Sparc_lab

Not a Talk, just a contribution to the discussions.

Laser assisted emittance exchange to reduce the X-ray FEL size

Soft X-Ray pulse length measurement

TW FEL “Death-Ray“ Studies

ILC Damping Ring electron cloud WG effort

Injector Topics for Discussion

Z. Huang LCLS Lehman Review May 14, 2009

Two-bunch self-seeding for narrow-bandwidth hard x-ray FELs

Design of an ECHO-seeded FEL at nm wavelength

SASE FEL PULSE DURATION ANALYSIS FROM SPECTRAL CORRELATION FUNCTION

Status of FEL Physics Research Worldwide Claudio Pellegrini, UCLA April 23, 2002 Review of Basic FEL physical properties and definition of important.

High Level Physics Applications for LCLS Commissioning

Transverse size and distribution of FEL x-ray radiation of the LCLS

LCLS FEL Parameters Heinz-Dieter Nuhn, SLAC / SSRL April 23, 2002

Achieving Required Peak Spectral Brightness Relative Performance for Four Undulator Technologies Neil Thompson WP5 – 20/03/19.

Vitali Khachatryan, Arthur Tarloyan, Vahe Sahakyan, V. Tsakanov

BEAM REALISTIC ERROR ORBIT IMPACT ON SASE PERFORMANCE

Linear beam dynamics simulations for XFEL beam distribution system

Study of Beam Losses and Collimation in JLEIC

S2E Meeting on Yauhen Kot.

Presentation transcript:

XFEL Simulations with SIMPLEX and GENESIS (Some preliminary results) Vitali Khachatryan CANDLE – DESY/MPY XFEL Simulations with SIMPLEX and GENESIS (Some preliminary results) OUTLINE 1. Simulation software. 2. Test with sample input files. 3. Beam parameters. 4. Focusing lattice. 5. Some results of XFEL study with SIMPLEX and GENESIS 6.Questions 27.11.2006

SIMULATION SOFTWARE GENESIS (2001) SIMPLEX (2005) http://radiant.harima.riken.go.jp 27.11.2006

TEST WITH SAMPLE INPUT FILES 27.11.2006

27.11.2006

SASE1 undulator line description (S2E meeting, March 10, 2004) 27.11.2006

Beta function in the SASE1 undulator 27.11.2006

Beam parameters Bunch parameters at the entrance of the undulator system SASE1 27.11.2006

POWER PLOTS (SASE1) 27.11.2006

BEAM OFFSET AT THE ENTRANCE OF THE UNDULATOR (SASE1) Peak Power [GW] GENESIS SIMPLEX No offsets 21.17 17.4 0.1 Sigma offsets 20.67 16.3 1.0 Sigma offsets 0.0173 0.004 27.11.2006

QUESTIONS If given arrangement of undulator system is adequate, is 8 cm space enough for vertical corrector? What is the most appropriate criterion to define FEL performance (brilliance, saturation length, # of photons)? 27.11.2006