Commissioning of the ASTA Photoinjector Laser System

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1 Commissioning of the ASTA Photoinjector Laser System Jamie Santucci Advanced Accelerator R & D Fermi National Accelerator Laboratory DOE LSO Workshop, September 11, 2013

2 Outline Fermilab ASTA Photoinjector Laser Laser System Control System Safety System

3 Fermilab Overview DOE Particle Physics Energy, Intensity, Cosmic Tevatron Neutrino Experiments Muon Campus IARC LHC R&D Dark Energy & Dark Matter AAR&D ASTA

ASTA Overview e- LINAC (ILC type) MeV GeV beams (5-50MeV / 300-1500MeV) High rep-rate (1-3MHz 1.

4 ASTA Overview e- LINAC (ILC type) MeV GeV beams (5-50MeV / MeV) High rep-rate (1-3MHz 1.3GHz, 1-5Hz CW) High brightness (peak & average) Extremely stable beam (spatially & temporally) Storage ring (IOTA) (50-100MeV/e-, 2.5MeV/p) Photoinjector: 3ps/3MHz/1ms/5Hz, 5-50MeV e- SRF (Superconducting RF accel. cavities) Experiment Areas (Low E & High E)

5 ASTA Campus

6 Injector Overview

7 Drive Laser System illab Injector Laser Lab Laser System Fiber Seed DPSS Amps 4HG

8 Drive Laser System -illab 500ft 2 Class 10,000 Cleanroom Climate Controlled to 1 degf rms 16ft Main Table, 12ft Secondarys

9 Drive Laser System Main Table

10 Drive Laser System -Overview

11 Drive Laser System -Seed YbFA Seed Calmar Lasers inc. 1053nm Fiber Laser 1.3 GHz Mode-locked <0.2 ps jitter 81 MHz Pulse Picked Fiber Amplified 500 mw to Free-space

12 Drive Laser System -Amps Nd:YLF DPSS Amps DPMP Cavity 1 uj DP2P Stations 9 uj NG-CEO 180 uj

13 Drive Laser System -4HG 4HG BBO: IR Green 527nm 80 uj BBO: Green UV 263nm 25uJ

14 Drive Laser System -Pulsetrain 5% rms Amplitude Jitter 300us Train Attained Working Towards 1ms

15 ACNET Analog Control System Settings Readbacks Digital Control Status Parameters Scaling Datalogging Sequencing S&R

16 Synoptic Laser Interface Controls GUI

17 Synoptic Laser Interface (cont.) GUI Subpages

18 Interlocks Class III & IV Enclosures Administrative Controls PPE Laser Safety System

19 Laser Safety System (cont.) Interlocks FNAL Accelerator ESS Hardware Loops A&B Software Loops A&B Safety Rated PLC Siemens Module 315F Laser Lab, Transport, Cave

20 Laser Safety System (cont.) Logic Diagram Overviews & Status

21 Laser Safety System (cont.) Controlled Access Storeroom Lock Unique Keys Laser PS Contactor Fire Key

22 Laser Safety System (cont.) Class IV enclosures (NHZ) Laser lab Locked Metal Box Sealed Penetrations Transport GV & Vacuum Switch Cave 9WX Optics Box Locks e- Beam Vacuum System

23 Laser Safety System (cont.) IR DPSS Containment

24 Laser Safety System (cont.) 4HG and UV Containment

25 Laser Transport Polycarbonate Stainless Steel Vacuum ABS & Aluminum

26 Laser Safety System (cont.) Administrative Controls ES&H Training IIIb & IV Accounting SOP With Sign-offs OJT With Sign-offs Locks and Safety Screws Signage

VISIBLE AND/OR VISIBLE INVISIBLE AND/OR LASER INVISIBLE RADIATION LASER AVOID EYE OR SKIN EXPOSURE TO DIRECT OR SCATTERED RADIATION RADIATION AVOID EYE OR SKIN CLASS 4 LASER PRODUCT FNAL/AD/NML LASER

27 VISIBLE AND/OR VISIBLE INVISIBLE AND/OR LASER INVISIBLE RADIATION LASER AVOID EYE OR SKIN EXPOSURE TO DIRECT OR SCATTERED RADIATION RADIATION AVOID EYE OR SKIN CLASS 4 LASER PRODUCT FNAL/AD/NML LASER ROOM IN ANY EMERGENCY DIAL 3131 PROPER EYE PROTECTION REQUIRED EXPOSURE LASER TRAINING TO DIRECT AND EYE OR EXAM SCATTERED REQUIRED RADIATION PROPER EYE PROTECTION REQUIRED POWER/ LASER MEDIUM REQ. OD λ ENERGY Calmar/NG Yb fiber/ylf nm 300μJ Dilas Diodes Diode nm 200W 2HG BBO nm 40μJ 4HG BBO nm 10μJ

28 Laser Safety System (cont.) PPE Laser Eyewear Clothing Requirements Face Shields Gloves Misc. Electrical Kentek C505C Newport UV gloves

29 THANK YOU NML Contacts and References: Fermilab, ASTA, Laser Jamie Santucci, Jinhao Ruan, Safety System Randy Zifko, Controls Chip Edstrom, Synoptic,

31 Backup Slides Synoptic Architecture Fermilab 3 Frontiers ASTA Parameters ASTA Overview Laser / e- Beam Parameters

32 The Synoptic Architecture

33 Fermilab Three Frontiers Energy Intensity Cosmic Accelerator Stewardship

34 ASTA Parameters (a) Optical pulse stacking methods or field-emission sources could lead to smaller bunch separation. (b) normalized rms values for an uncompressed beam (c) nominal value corresponds to a 3.2-nC compressed bunch without operation of CAV39

35 ASTA Overview (cont.)

36 Laser / e- beam parameters Transverse spot size available: 0.2-6mm Bunch = 3ps (rms) 1/fb = 3MHz 1/fmac = 5Hz Charge = pc

37 Laser Safety System (cont.)

Laser Safety Self-Audit Checklist

Laser Safety Self-Audit Checklist Building Room Principal Investigator Date A. Administrative 1. Lasers are classified appropriately (IIIb, IV) 2. Standard operating procedures are available 3. Alignment