Intro
Hazard Summary
- Pretty big table on page 5. Worth a glance
- Lists general types of hazards, what they could do, how we're controlling for them, how likely they are to happen, and severity/risk
- Definition of Risk on page 9
- Risk is a function of probability and severity (high severity + low probability = low risk, high + high = high, low + low = low)
- Pretty big table on page 5. Worth a glance
LAF Description
LAF Subsystems
- Copper linac through the FEE, FACET-II facility, ESA, LCLS II RGD
- Copper
- 2856 MHz, room temp, klystrons, SLED cavities
- 25 feet under gallery
- Gallery has klystrons, SLED cavities/modulators, power supplies, cooling water systems
- 31 sectors (0 in the west, 30 in the east)
- Each sector ~100 m long
- Linac West (S0 - 9)
- decommissioned and removed for superconducting LCLS-II (currently under construction)
- Linac Middle (S10 - 19) and Linac East (S20 - 30) separated by concrete shielding wall and personnel passageway maze
- Can be operated independently
- But share control and water cooling systems
- People can't be in Linac East if Linac Middle is running
- prompt radiation risk exposure
- Max pulse rate is 120 Hz
- 30 Hz if 120 isn't needed or to reduce power consumption
- Linac East and Middle can be operated at different rates
- Usually 30 Hz for FACET-II (the usually is suspicious here considering we haven't run it yet)
- Usually 120 Hz for LCLS
- Linac Middle
- Max energy of ~16 GeV to FACET-II
- Positron beam coming in the future when they build a damping ring
- Not designed to go above 30 Hz
- Linac East
- Max energy of ~18 GeV to Undulator Complex (has two undulator systems)
- Generate coherent x-ray beams that can be sent to the NEH and FEH
- Has previously sent beam to ESA, but that's currently decommissioned
- Could be brought back if needed
- Max energy of ~18 GeV to Undulator Complex (has two undulator systems)
LCLS-II Injector
- Normal conducting laser-driven photocathode gun (186 MHz) followed by a buncher cavity
- Currently set up to deliver electrons to a Faraday cup for commissioning without additional accelerationThere's currently a concrete shielding wall immediately downstream of the Faraday cup
- Will be removed before the injector is connected to the superconducting linac
- Will be reclassified when it's connected to the linac
Linac West
- LCLS-II injector through Sector 9
- Currently under construction
FACET-II Injector
- At Sector 10
- Produces electrons for acceleration in Linac Middle & delivery to the FACET-II experimental area in S20
- Normal conducting S-band laser-driven photocathode gun
Linac Middle
- Middle third of the linac, sectors 10 though 20
- Designed to accelerate, compress, & focus electron or positron beams to the FACET-II experimental area in S20
- Magnetic chicane bunch compressors in sectors 10 and 14 shorten the electron beams longitudinally (increasing intensity)
- Currently unable to produce positron beam
Positron Source
- Can produce positrons by slamming electrons into a target near S19
- The target is a plate of high-density, water-cooled tungsten-rhenium
- It's slowly rotated so that the heat from the beam is dissipated over a higher area
- Target is followed by RF capture and acceleration sections that make a 200 MeV positron beam
- You can park all or some portion of the e- beam on (in?) the transport line from S19 to the target
- We currently can't transport, damp, or reinject positrons in to the linac (all that stuff was decommissioned)
- Can produce positrons by slamming electrons into a target near S19
FACET-II Experimental Area
- In S20
- Beam transport and focusing system, followed by an area to mount experimental setups, followed by a beam dump
- The transport and focusing system has diagnostic devices and magnets
- Focuses the beam to a small spot size at the experimental setup
- Compresses the bunches longitudinally for "very" high peak current
- The transport and focusing system has diagnostic devices and magnets
LCLS Injector
- S20
- Produces electrons for acceleration in Linac East
- Which drive the LCLS FELs in the Beam Transport Hall
- Normal-conducting, laser-drive photocathode S-band gun
Linac East
- LCLS uses last kilometer of linac (S21 through 30)
- Produces ~2 to 17 GeV
- Dependent on number and configuration of klystrons
- Beam lines and shielding could safely transport and dissipate 25 GeV e- beam
- Magnetic chicane e- bunch compressors in S21 & 24 shorten the e- bunches longitudinally
- The chicanes divide Linac East into five LCLS areas:
- Linac-1 (L-1)
- Bunch Compressor-1 (BC-1)
- Linac-2 (L-2)
- Bunch Compressor-2 (BC-2)
- Linac-3 (L-3)
- The chicanes divide Linac East into five LCLS areas:
Beam Switchyard
- BSY
- Provides switching, energy definition, collimation, and transport functions for LCLS and ESA beams
- Can send compressed e- bunches to either transport line to the BTH on a pulse-by-pulse basis
- Has beam dumps that can stop and safely dissipate e- beam
A-Line to End Station A (ESA) and Beam Dump East (BDE)
- ESA is a facility for fixed target experiments
- A-Line transport system can deflect pulses from the primary beam to ESA on a pulse-by-pulse basis
- Only a small fraction of them though. Most of them continue to the LCLS HXR undulators
- Originally designed to handle beam power from the full linac (potentially more than 1 MW), so can safely handle Linac East beam
- A dump in the Northwest ESA wall can be used with low power beam
- Currently out of service, but could be easily brought back
The Beam Transport Hall (BTH)
- Immediately east of the linac BSY
- Contains two LTU (Linac to Undulator) beam lines
- e- beam from the linac can be sent to either one
- Contains two undulator magnet systems
- HXR (Hard X-Ray) and SXR (Soft X-Ray)
- horizontal and vertical bending magnets can direct the beam to either
- Both go to the EBD (Electron Beam Dump)
- The east end has tune up dumps that provide temporary parking places for the e- beams upstream of the undulator magnets
- Undulators
- Series of magnets placed end-to-end along the beam line
- interleaved with quadrupole magnets, steering corrector magnets, and beam position monitors
- HXR Undulator
- approximately 32 magnetic segments
- each has a remotely adjustable horizontal gap
- produces a vertically polarized Free Electron Laser (FEL) beam
- selectable photon energies between 1 and 25 keV
- approximately 32 magnetic segments
- SXR Undulator
- approximately 20 magnetic segments
- each has a remotely adjustable vertical gap
- produces a horizontally polarized Free Electron Laser (FEL) beam
- selectable photon energies between 0.2 and 8 keV
- approximately 20 magnetic segments
- a magnetic chicane and photon filtering system in each undulator system provide self-seeding capabilities
- Byproducts
- low brightness spontaneous radiation beam
- broader spectral width and divergence
- lower brightness harmonics of main FEL beam
- low brightness spontaneous radiation beam
Electron Beam Dump (EBD)
- After the undulators
- electrons and x-rays co-propagate to the dump magnets
- e- beams are deflected down into water-cooled Electron Beam Dumps
- designed to absorb the full beam power
- x-rays aren't deflected
- continue on to the experimental areas through the FEE (Front End Enclosure)
The Front End Enclosure (FEE)
- first room downstream of the EBD (Electron Beam Dump)
- beam lines designed to transport photons, not electrons
- contains mirrors, optical elements, limiting apertures, attenuators, and diagnostic devices for each beam path
- can monitor the position and energy of individual pulses
- contains mirrors, optical elements, limiting apertures, attenuators, and diagnostic devices for each beam path
- can send photons to two buildings, the NEH (Near Experimental Hall) and FEH (Far Experimental Hall), using mirror systems
- The FEH hutches (experimental areas) all receive hard x-rays from the HXR undulator line
- CXI, MFX, XCS, and MEC
- The NEH has a mixed bag of hutches (four in total)
- TMO and 2.x can take soft x-rays from the SXR undulator line
- XPP can take hard x-rays from the HXR undulators
- TXI can take both
- Each mirror system includes photon collimators to protect the beam line equipment from damage by the photon beam and to intercept bremsstrahlung radiation
- The FEH hutches (experimental areas) all receive hard x-rays from the HXR undulator line
- Sending beam to the FEE requires authorization from both the AOSD (Accelerator Operations and Safety Division) and the LCLS Directorate
- Safety controls for FEE operation are listed in the undulator complex BAS (Beam Authorization Sheet) and the FEE BLA (Beam Line Authorization)
- The details and hazard hazard analysis are in the LCLS SAD (Safety Assessment Document)
Technical Support Areas
- activities in these facilities are managed under 10 CFR Part 835 and Part 851
- These areas do not contain any credited controls for the LAF and are not covered by the LAF (Linear Accelerator Facility) ASE (Accelerator Safety Envelope)
- Klystron Test Lab (KTL)
- Klystrons are tested in Building 44 on test stands
- They undergo routine repair, maintenance and processing
- controlled by KTL standard procedures
- There's also R&D on RF (Radio Frequency) structures
- Some require ionizing radiation controls approved by both RP (Radiation Protection) and KTL
- proper quantity and placement of shielding, ALARA (As Low As Reasonably Achievable) controls, and testing/measuring ionizing radiation as power is applied
- Some require ionizing radiation controls approved by both RP (Radiation Protection) and KTL
- Klystrons are tested in Building 44 on test stands
- Radioactive Storage and Management Areas
- Low level radioactive and mixed waste management
- Waste operations are conducted in accordance with the Radioactive Waste Manual
- Radioactive materials are controlled and managed in accordance with the SLAC Radiological Control Manual (RCM)
- Radioactive Magnet Storage Yard (B480 and fenced yard including alcove)
- Some legacy radioactive sealed sources and activated materials are stored in the fenced area
- Radioactive Waste Management Tent (B009)
- Radioactive Waste Storage Area (B478)
- Low conductivity water resin transfer with subsequent dewatering
- Beam Dump East Yard
- contains legacy equipment once used within the A and B Lines
- also old accelerator components
- dipoles, quadrupoles, sextupoles, experimental test apparatus and fixtures, beamline chambers, and steel shielding blocks
- induced activity of these materials is very low (around background radiation levels at 30cm)
- Building 24
- Radiation Calibration Facility (RCF) and Radioanalysis Laboratory (Rad Lab)
- houses various types of sealed radioactive sources used for instrument calibration
- supports counting of potentially radioactive samples
- sources and samples are managed in accordance with the SLAC RCM requirements
- Misc. Areas
- Activated accelerator components can be stored, repaired, machined, etc at other locations like:
- Building 24 (RPD laboratories, cable group and other shops)
- Building 25 (MFD light fabrication shop)
- Building 26 (MFD Heavy Fabrication shop)
- Building 30 (MFD storage area)
- Building 31 (MFD vacuum shop)
- Building 33 (Light Assembly)
- Building 44 (Klystron Department)
- Building 84 (Central Laboratory)
- Building 413 (lead storage)
- IR2 (former PEP experimental hall)
- The klystron gallery
- Hazards and activities are managed in accordance with the DOE-approved Radiation Protection Program, ES&H (Environmental Safety & Health) Manual and Radiological Control Manual requirements
- Activated accelerator components can be stored, repaired, machined, etc at other locations like:
Accelerator Operations Organization
The AOSD (Accelerator Operations and Safety Division) controls LAF (Linear Accelerator Facility) operation
- Reports to the Associate Laboratory Director (ALD) of the Accelerator Directorate (AD)
- Charged with day to day running
- The Normal Conducting Linac and FEL Division (Why not NCLFD? Why are our acronyms so inconsistent...) controls machine development, configuration control, and maintenance
- The EOIC (Engineering Operator in Charge) is responsible for safe running on a shift-by-shift basis
- They're assisted in the ACR (Accelerator Control Room) by Accelerator Systems Operators (ASOs)
Operations
Controlling Documents
- CAFO (Conduct of Accelerator Facility Operations)
- AOSD (Accelerator Operations and Safety Division) Directives
- define the roles and responsibilities of the accelerator operators and specify applicable procedures
- BASs (Beam Authorization Sheets)
- RGDAS (Radiation Generating Device Authorization Sheet) can be used instead for injector commissioning (i.e. for the LCLS II gun)
- Will be incorporated into a BAS when the linac is being commissioned
- Engineered safety systems, administrative procedures, and implementation procedures make for safe running
- EOICs (Engineering Operators in Charge) have primary responsibility for safe operation
- The ADSO (Accelerator Division Safety Office) provides an oversight function for all accelerator activities
Maintenance
Area managers are responsible for managing maintenance activities in close coordination with the AOSD control room staff
- They collect maintenance requests and schedule the work for the next available maintenance period
- The ADMO (Accelerator Division Maintenance Office) coordinates the maintenance schedule
- ADMO is part of AOSD (Accelerator Operations and Safety Division)
- The EOIC and area manager can initiate immediate maintenance if necessary
Training
- Administered by the ES&H (Environmental Safety & Health) division
- Workers on site (employees, users, contractors) must all take ESHO (Environment, Safety, and Health Orientation)
- Anyone working in RCAs (Radiologically Controlled Areas) must take GERT (General Employee Radiological Training)
- Managers and supervisors are responsible for employee training
- They review employee duties at least once a year to determine what training is necessary and to make sure that the employee has completed it
- Done through the STA (Staff Training Assessment) process at least once yearly
- They review employee duties at least once a year to determine what training is necessary and to make sure that the employee has completed it
- Operator Training
- Training manuals are sets of sign-off sections including:
- ES&H training
- Equipment/accelerator-specific safety training
- search procedures
- PPS (Personnel Protection System) operation
- BCS (Beam Containment System) checks
- use of BASs (Beam Authorization Sheets)
- Operators complete a separate training qualification workbook for each PPS zone
- Senior AOSD staff conduct training using the manual checklists
- Checklist items are signed off when the trainee completes the section and demonstrates competence
- AOSD line management has final sign-off after all sections are done and trainers have offered evaluations
- Records of safety training are summarized in a document called Shift Schedules and Training Record Summaries
- Lists current qualifications for each operator
- Training manuals are sets of sign-off sections including:
- Administered by the ES&H (Environmental Safety & Health) division
Hazard Analysis
- The safety analysis process is governed by Safety of Accelerator Facilities, DOE Order 420.2C
- Implementation guidance is provided in the Accelerator Facility Safety Implementation Guide for DOE O 420.2C, Safety of Accelerator Facilities, DOE G 420.2-1A
Hazard Analysis Methodology
- The safety analysis process is governed by Safety of Accelerator Facilities, DOE Order 420.2C
- ASE
- QA
- Post Ops