Adventures in Engineering:Lasers and Mechatronics

Robert Morris University

The Penn State Electro-Optics Center

Nov 18th, 2017

Westinghouse Science Honors Institute

Presented by:

Benjamin Campbell, Ph.D.

Lasers and Mechatronics

Educational BackgroundPine-Richland High School 1994 - 1998

Penn State 1998 - 2003

B.S. Physics, Electronics Option

Minor: Mathematics

Minor: Business

Minor: Astronomy and Astrophysics

M.S. Electrical Engineering

Robert Morris University 2005 - 2008

Engineering Ph.D.

Penn State Electro Optics Center 2003 - 2011Research Engineer

Robert Morris University 2011- present

Assistant Professor of Engineering

Work History

Lasers and Mechatronics

What is a

Laser?

Lasers and MechatronicsHow Do Lasers Work?

Light Amplification by Stimulated Emission of Radiation

•Assume that all the atoms start out

from the ground state.

•Then most of them are pumped up to a

higher energy level E3.

•They quickly fall from the short-lived

level E3 to the metastable upper level

E2, which has a much longer lifetime

(typically thousands of times longer).

•The result is the population inversion

between energy level E2 and

depopulated level E1, which are the

laser transition levels. A model of a three-level laser

Lasers and Mechatronics

How Do Lasers Work?

Pumping for a Population Inversion

Pumping is the process of

delivering energy to the

lasing material to create a

population inversion. The

most common forms of

energy delivery are:

•Electricity

•Light

Lasers and Mechatronics

Laser Light is:• Coherent. Different parts of the laser beam are related to each other

in phase. These phase relationships are maintained over long enough time so

that interference effects may be seen or recorded photographically. This

coherence property is what makes holograms possible.

1. Spatial Coherence

2. Temporal Coherence

• Monochromatic. Laser light consists of essentially one

wavelength, having its origin in stimulated emission from one set of atomic

energy levels.

• Typically Highly Collimated. Because of bouncing

back between mirrored ends of a laser cavity, those paths which sustain

amplification must pass between the mirrors many times and be very nearly

perpendicular to the mirrors. As a result, laser beams are very narrow and do not

spread very much.

Lasers and Mechatronics

The typical output power

is less than 1 mW

The Inner Workings of a Laser Pointer

Lasers and Mechatronics

What happens if we add

up a bunch of laser

pointers and give them a

really big battery?

Lasers and Mechatronics

40 kW Solid State Heat Capacity Laser

(SSHCL) at Lawrence Livermore National Labs

http://www.popsci.com/popsci/aviationspace/a4ce42fd3f98a010vgnvcm1000004eecbccdrcrd/2.html

Lasers and Mechatronics

Laser Defense: Land, Sea, Air,

Lasers and Mechatronics

CNN: Navy's drone death ray takes out targets.

Gizmodo: The Navy Wants to Kill Drones With This Ginormous Laser Gun.

Lasers and Mechatronics

LAWS: LAser Weapons System

Lasers and Mechatronics

LAWS Demonstration

Lasers and Mechatronics

Material is ablated by squeezing energy into an ultrashort time

span to superheat and liberate the surface material before heat

transfer negatively affects the surrounding material

Ultrashort Pulse Drilling

Lasers and Mechatronics

How Short is Ultrashort?

Prefix Value

milli- 10-3

micro- 10-6

nano- 10-9

pico- 10-12

femto- 10-15

atto- 10-18

One attosecond (one

billionth of a billionth of

a second) is the

approximate time that it

takes light to travel the

diameter of an atom

In 200 femtoseconds,

light can barely travel

the thickness of a strand

of hair (60 micrometers)

Lasers and Mechatronics

Power = (Energy)/(Time Duration)

1 Watt = (1 Joule)/( 1 Second)

A laser pointer is a Continuous Wave (CW) laser.

If it has an output of 1milliWatt

for 1 second, the energy is 1milliJoule.

For example, we will use 0.242 milliJoules

If we compress that energy into a pulse that is 200

femtoseconds we get a laser pointer with a power of...

Lasers and Mechatronics

1.21 GigaWatts!

Lasers and Mechatronics

A Manufacturing

Technology

Center of

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Comparison of picosecond laser cut to mechanical methods (metal

shears) for thin metalLaser cut copper

Mechanically cut copper

Lasers and Mechatronics

Laser Machining Examples

Ceramic Matrix Composite

CVD Diamond

Lasers and Mechatronics

Laser cut micro-channels in silicon carbide using ps and fs lasers

Lasers and Mechatronics

Marking Plastics3 micron marks with femtosecond laser (below)

and 25 micron spot size patterning with

picosecond laser (right) in various plastics

Lasers and Mechatronics

Ultra-Short Pulse Laser Machining

BenefitsPrecise machining with negligible heat

affects

Higher reliability and improved

performance

Lower pollution

Improved Fuel Injection

5-ton diesel truck

Femtosecond laser-drilled holes.

Improved Performance and Lower Pollution

Lasers and Mechatronics

Spinning Wedge Trepanning System

• This system uses two pairs of wedges

to give the beam offset from the center

axis and add an attack angle through

the processing lens

• Acts as a corkscrew pattern for drilling

• By changing wedge parameter the

taper of the hole can be adjusted, to

get positive, negative, or no taper.

Lasers and Mechatronics

Shapes made by Spinning WedgesRepresentative Image Shape

Circle

Line

7 - armed asterisk

9 - point star

Picture courtesy of LaserMech Inc.

Lasers and Mechatronics

Spinning Wedge Model

Using geometric optic

principles to calculate beam deflections at each interface

Lasers and Mechatronics

3D Modifications• Snell’s Law can be altered to give outputs in vector

form as seen below. We incorporate a rotational

matrix around the z-axis with respect to gamma, a

rotational parameter, and find the angle between

planar norms. We use an initial input directionality to

convert the vector back to output angles

or

Lasers and Mechatronics

Output Examples

Lasers and Mechatronics

Photos show 282 mm deflection effected with a single

pulse 7J (~190J/cm^2) laser pulse

7J laser pulse

Keyence proximity sensor

A before (left) and after (right) image of laser bending of uncoated Neyoro®G sample

Lasers and Mechatronics

Fun with Lasers…

Laser Bending Video And some laser music!

(Courtesy of Ben Hall at PSU’s ARL)

Lasers and Mechatronics

Laser Writing Inside Materials• Unfocused lasers can be

transmitted through transparent materials

• If the laser is focused, it will only interact with the material over a fluencethreshold (high energy density)

• The material will be damaged at the focus with the highest fluence.

• Moving the focus within the material will shape the damage zone.

Lasers and Mechatronics

Challenge:

Cut wires that are embedded in glass

Short circuits were found in a thick window of glass that had an electrical network of tungsten wire less than 25 microns thick embedded into it at depths between 10 and 50 mm. Can a laser be used to effectively sever the wire?

Applications: Repairing wiring in windows and embedded displays

Lasers and Mechatronics

Cutting of embedded wires in transparent armor

To reduce the amount of heat

transfer into the glass, a

femtosecond and picosecond

laser were used for testing.

The femtosecond pulses

tended to discolor the glass

that it passed through

The picosecond laser did not

cause these distortions.

Lasers and Mechatronics

Picosecond laser cutting of embedded wires in transparent armor

532nm at 100kHz

1064 nm at 10kHz

Lasers and Mechatronics

How Small is Micromachining?

Lasers and Mechatronics

The Gettysburg Address

contains 267 words (1189

characters) and is compressed

into an area measuring less

than 4mm (3/16 inch) by 6mm

(1/4 inch). The height of each

letter is 1/10 of a millimeter tall

(four-thousandths of an inch),

The Gettysburg Address etched on a Lincoln Penny

How Small Can We Laser Etch?

Lasers and Mechatronics

Laser micromachining the

Declaration of Independence

on a Jefferson nickel

The Declaration

of Independence contains:

6,716 Characters

1,327 Words

The program to etch

the nickel was:

4,427 pages in size 10 font

252,298 lines of code.

Still enough room left to add the signatures

of the founding fathers below the text.

Lasers and Mechatronics

Exploring Engineering at Robert Morris

University in Moon, PA

• Only Manufacturing Engineering Major offered in PA

• Engineering degrees with concentrations in Mechanical, Biomedical, Software and Industrial Engineering, Masters in Engineering Management

• Private School with small class sizes (typically 20 or less)

• ABET Accredited Engineering Degree

• Launched a Mechatronics Minor in 2014

Lasers and Mechatronics

Mechatronics

• Mechatronics is a new term that covers three areas of engineering:

– Mechanical Engineering

– Software Engineering

– Electrical Engineering

• Multidisciplinary

approach to robotics and

automation

Lasers and Mechatronics

Neural Interface

Lasers and Mechatronics

Neural Interface

Lasers and Mechatronics

• Exploring mental control of more advanced devices

• Using Arduino controller to read signals from EEG headsets and trigger other devices

• Exploring control of Lego Mindstorm based robots via Bluetooth

Neural Interface

Lasers and Mechatronics

Artificial Finger Project

What is the Problem?

- Prosthetic hands cannot operate touch screens

- Most gloves inhibit touch screen use

- Many different types of touchscreens are made

Engineering Investigation

- What types of touchscreens can we identify

- Test common materials on each

- Design new materials to be universal activator

Lasers and Mechatronics

Artificial Finger ProjectBuilding prototypes to effect capacitance fields through insulating material.

Student designed app for testing accuracy of touching targets. Comparing:• Normal fingers

• Finger with Band-aid

• Glove with conductive fingertip

• Stylus

• Prototype prostheses

Lasers and Mechatronics

Transmission Plastic Welding with Lasers

Lasers and Mechatronics

Transmission Welding Samples

Lasers and Mechatronics

Laser Based Infrared Welding of Similar Materials

Weld Process

1. Load

2. Melt

3. Seal

4. Unload2

2 3

Lasers and Mechatronics

MECCO 50W Plastic Welding System

Lasers and Mechatronics

Laser Ablation TomographyCourtesy of Lasers for Innovative Solutions

• A laser can completely burn a sample layer by layer

• A camera collects images during the burning process

• A spectrometer can capture the wavelengths emitted as the matter is excited by the laser, and identify the constituent elements

Lasers and Mechatronics

*Warning, this transporter destroys subject and produces cheap plastic copies anywhere in the world.

Enter at your own risk.

Creating a Matter Transporter*Courtesy of Lasers for Innovative Solutions

Lasers and Mechatronics

Creating a Matter Transporter*Courtesy of Lasers for Innovative Solutions

Lasers and Mechatronics

Laser Ablation 3D Printing Transporter

Lasers and Mechatronics

RMU Research• RMU Engineering Learning Factory

http://www.youtube.com/watch?v=k92vlAvnFz0

Lasers and Mechatronics

PGSS at Carnegie MellonThe Pennsylvania Governor’s School for the Sciences

http://sciences.pa-gov-schools.org/

• 5 week intensive residential summer program

• Study advanced topics in Biology, Chemistry, Computer Science, Mathematics and Physics

• Choose from electives and a lab in those subjects

• Complete an original research project in a team

• FREE program for rising seniors, applications due Jan 28th

Lasers and Mechatronics

So what is PGSS like?

Lasers and Mechatronics

College is a time to figure

out your Ikigai (pronounced

ee-key-guy). In my career

the work that has been most

satisfying too me has been

at the center of this.

Most continue through

school to gain skills for a

vocation or a profession.

I challenge you to move

beyond those circles and

discover your passion and

your mission in life to

reach your Ikigai.

Lasers and Mechatronics

Questions?

Email:

campbellb@rmu.edu

Website:

https://sites.google.com/a/rmu.edu/campbellb/