LIGO Laser Safety Trainingpking/safety/... · 2016-07-27 · The purpose of laser eye protection...

Introduction

LIGO Laser Safety Program LIGO-M960001-v1

Based on ANSI Z136.1

American National Standard for Safe Use of Lasers

Introduction (cont)

Topics covered: Why bother with laser

safety? What is light? What is a laser? Point and extended

sources Vision and skin

» The eye » The retina » The skin

Injuries

Laser classifications Laser eye protection

(LEP) Laser warning signs Terminology Responsibilities What to do in case of

an incident?

Why bother with laser safety?

Compared to natural light, laser light or laser radiation has some very special properties. These properties cover the nature of laser light and its biological risk factors. Most importantly …

What is light?

Light (noun) The form of energy that makes it possible to

see things: the brightness produced by the Sun, by fire, a lamp … etc.

(Merriam-Webster online dictionary)

What is light?

Biblically … (Genesis 1:3) And God said and there was light.

�𝑬.𝑑𝑑 = 𝑞𝜀0

�𝑩. 𝑑𝑑 = 0

�𝑬. 𝑑𝑑 = − 𝑑Φ𝐵𝑑𝑑 �𝑩.𝑑𝑑 = 𝜇0𝜀0

𝑑Φ𝐸𝑑𝑑 + 𝜇0𝑖

The electromagnetic spectrum

What is a laser?

Laser is an acronym for Light Amplification by Stimulated Emission of Radiation

Properties of laser light

Monochromatic Low beam divergence Waves are in phase

Polychromatic Highly divergent Waves have random phase

Biological effects of laser radiation

The nature and site of the injury depend on the following: Wavelength

» Determines what part is exposed Output power Exposure duration

» Calculations done at 0.25 s for visible light, 10 s for infrared wavelengths, or the appropriate exposure duration (eg. 8 hours)

The eye

How do I see?

Retina has two types of photoreceptors Rods Cones

Rods are more sensitive Cones provide colour sensitivity Concentrated in the

macula

Image formation by the eye

Light is focussed by both the lens and cornea Focal length, feye ~ 17 mm Pupil diameter, d ~ 7 mm

Point and extended sources

Point and extended sources (cont)

Pretty much all lasers can be treated as point sources Irradiated spot on the retina can be as small as 7 – 20 µm in diameter 5 mW (legal laser pointer) → 13 kW.cm-2

Optical gain of 100000

Wavelengths between 400 – 1400 nm focus onto the retina The retinal hazard region

The smallest pupil diameter is 2.2 mm The smallest resolvable spot on the retina is

7 µm in diameter The ratio of the two is approximately 100000

Absorption of radiation by the eye

Wavelengths in LIGO

Spectral response of the eye

Peaks in green Just because you don’t see it, doesn’t mean it’s not hazardous

What is wrong with this picture?

Visual acuity

Visual acuity is the ratio of the distance at which the letter is read to the distance at which it is normally read Dutch opthalmologist Herman Snellen (1834 – 1908)

An optical illusion

An optical illusion

An optical illusion

An optical illusion

An optical illusion

Aversion response

When exposed to bright, or intense, light a person’s natural reaction is to blink and move their head out of the way Aversion response 0.25 seconds

The skin

UVC – dangerous rays UVB – burning rays UVA – tanning rays Strong absorption in the infrared

INJURIES A small compendium of laser related injuries

Retinal injury example #1

Laser light show at a dance club 510 nm, 2 mW laser

Corrected visual acuity was 20/800 Patient recovered

after surgery Remember 2 mW is generally considered safe! Image credit: Clin Ophthalmol 2014: 8: 2467 - 2470

Retinal injury example #2

510 nm, 2 mW laser Corrected visual acuity was 20/800 Received medical treatment to remove hæmorrhage Remember 2 mW is generally considered safe!

Image credit: Clin Ophthalmol 2014; 8: 2467 - 2470

Retinal injury example #3

Repetitively pulsed IR laser Reported seeing 2 or 3 yellowish flashes at

time of exposure Visual acuity decreased to 20/50 after a few hours

Retinal injury example #4

Viewed output of a laser range finder despite reading the warning labels and receiving laser safety training. Immediate loss of vision, some improvement after 5 minutes.

Retinal injury example #5

Accidental exposure to a Q-switched Nd:YAG laser without laser eye protection Experienced a bright flash, followed by sudden loss of vision No recovery of visual acuity after 6 years

Image credit: Korean J Ophthalmol 2009 Sep; 23(3) 207 - 209

Retinal injury example #6

532 nm, 150 mW laser pointer Immediate blurred vision Waited two weeks before seeking medical attention Visual acuity was

20/32 in right eye, 20/25 in left eye after treatment Image credit: N Engl J Med 2010; 363; 1089 - 1091

Retinal injury example #7

Exposure to 200 ps stretched pulses Peak intensity > 1012

W.cm-2, average power a few watts

Laser eye protection was worn Intense blue light, loud sounds of pops and a crackling noise, dark cloud in vision

Retinal injury example #8

Laser exposure 4 hours after

exposure, hæmorrhaging

3 days 10 days, hole in

macula appears 6 months,

permanent scarring Image credit: Health Physics, vol. 56, no. 5, pp 705 – 710 (1989)

Retinal injury example #9

Both eyes exposed Top: left eye Bottom: right eye

Visual acuity in right eye decreased to 20/28 Permanently scarred

Image credit: Health Physics, vol. 56, no. 5, pp 705 – 710 (1989)

Retinal injury example #10

Direct hit whilst aligning a Pockels cell Visual acuity reduced to 20/200 Hole developed in the macula

Image credit: Health Physics, vol. 56, no. 5, pp 705 – 710 (1989)

Corneal injury example #1

Injury suffered whilst having CO2 laser skin resurfacing Pain in both eyes, decreased visual acuity and distorted vision Visual acuity was

20/100 20/50 after 2 months

of treatment Image credit: Korean J Ophthalmol 2014 Sep; 55(9) 1376 - 1379

Sclera injury example #1

Combined CO2/Nd:YAG laser 20 – 25 W CO2 laser 7 – 8 W Nd:YAG laser

Visual acuity was 20/125, 5 days after treatment Recovered after 7

months

Image credit: Arch Ophthalmol 2000; 118(6) 848 - 850

Skin injury example #1

CO2 laser burn study conducted over 20 years 5 W.cm-2, 1 s pulse

Other than scarring, no detrimental effects

Possible eye injury symptoms

Headache after exposure Excessive watering of the eyes Sudden appearance of floaters An audible pop at time of exposure Difficulty detecting the colours blue or green Vision going cloudy at time of exposure or shortly thereafter Burning pain

Possible skin injury symptoms

A sensation of warmth resulting from the skin’s absorption of laser energy 0.1 W.cm-2 produced a sensation of warmth

UVA (315 – 400 nm) Skin discolouration or darkening Reddening of the skin (erythema)

UVB (280 – 315 nm) and UVC (200 – 280 nm) Blistering Reddening of the skin

LASER CLASSIFICATIONS AND LASER EYE PROTECTION

Laser classifications

The higher the class, the greater the potential hazard Class 1, Class 1M Class 2, Class 2M

» Visible light only, output less than 1 mW Class 3R All classes listed above present little or no eye

hazard Within LIGO we are mainly concerned with Class 3B and Class 4 lasers

Class 3B, Class 4 comparison Class 3B Class 4

Can be visible or invisible

Can be visible of invisible

Output between 5 – 500 mW

Output greater than 500 mW

Hazard from Direct or intra beam

exposure Direct or intra beam

exposure Specular reflection Specular reflection Eye hazard Diffuse reflection

Eye hazard Skin hazard Combustion hazard

Terminology

Maximum Permissible Exposure (MPE) The level of laser radiation to which an

unprotected person may be exposed to without adverse biological effects to the eye or skin.

Nominal Hazard Zone (NHZ) The space within which the level of direct,

reflected or scattered radiation may exceed the MPE. At the observatories, the entire LVEA is an NHZ.

Terminology (cont)

Standard Operating Procedure (SOP) Formal written description of the safety and

administrative procedures to be followed in performing a specific task.

Laser Safety Officer (LSO) One who has responsibility and authority to

monitor and enforce the control of laser hazards

» At LHO, Peter King » At LLO, Danny Sellers » At Caltech, Eric Gustafson » At MIT, Peter Fritschel

How do we protect ourselves? Awareness through training Control measures Engineering

» Laser enclosures » Beam enclosures » Access control

Administrative » Following procedures (SOPs) » Warning signs » Communication to and with others

Personal protective equipment Laser eye protection

Optical density

What is optical density? OD = − log10 transmittance

Alternatively

OD = log101

transmittance

Optical density (cont)

Optical density

Transmission

0 100%

+1 10%

+2 1%

+3 0.1 %

Laser eye protection

The purpose of laser eye protection (LEP) is to attenuate any laser radiation that might strike it to a safe level Types of LEP Absorptive Reflective Combination of absorptive and reflective

LEP should (preferably) conform with ANSI Z87.1 Should be marked with Z87+ somewhere

Examples of LEP

Absorptive polycarbonate

Typically green or orange coloured Relatively light

Examples of LEP (cont)

Absorptive glass

Typically have a grey/bluish tinge Heavy

Examples of LEP (cont)

Absorption coated glass

Grey/bluish tinge with a coating

Examples of LEP (cont)

Reflection coated polycarbonate

Examples of LEP (cont)

Combination absorptive glass and reflection coating

Prescription LEP

Prescription LEP is available Unfortunately not many frame styles to

choose from Use an prescription insert

LEP accessories

Anti-fog insert

Identification of LEP

What to look for? Structural integrity of the frames Scratches, cracks and pits in the lenses OD and wavelength region markings

EN 207 LEP

Markings are somewhat more complicated Rated by: Working mode Wavelength range Scale numbers (similar to OD) Pulse length

A precautionary tale

Always check the condition of the LEP 300 mW

through a good region 4.3 W through

damaged region

Trade-offs in selecting LEP

Visible light transmission Ideally as high as possible

Comfort Weight Fit

Prescription eyewear Coated LEP is only good for a small range of acceptance angles (~ 30�)

What is wrong with this picture?

Laser warning signs

Old signs

Laser warning signs

New signs

Signal words

Danger Imminently hazardous situation which, if not

avoided will result in death or injury Warning Potentially hazardous situation which, if not

avoided, could result in death or serious injury Caution Potentially hazardous situation which, if not

avoided, may result in minor or moderate injury

Matching eyewear to the laser use area

This set of eyewear is marked: OD7+@532, 755-810

1064 nm OD5+ 10600 nm

Responsibilities

As a person with basic laser safety training you are allowed to … Do what you are told to do …

As a person with basic laser safety training you are NOT allowed to: Operate a laser by yourself Make unsupervised changes to the beam

path by yourself

What to do in case of an incident?

What do I do if I think I was hit by a laser? Notify those in the immediate area and

switch off the laser Remove yourself from the hazard zone Seek medical attention as necessary Notify your supervisor or the LSO as soon

as possible

Other hazards

Remember that more can hurt you than just the laser … Electricity Pressure Chemicals Mechanical hazards Confined space Cryogenics Laser generated airborne contaminants Housekeeping Fatigue

Summary

Working safely around lasers is possible Respect all warning signs Always wear your laser eye protection If you have questions, please ask the LSO

What is wrong with this picture?