Discovering Lasers

Filed under Scientific Military History, Videos by on October 3, 2012 at 7:47 am {no comments}

Did you know that the word “laser” is an acronym?  Seriously!

LASER stands for Light Amplification by Stimulated Emission of Radiation.   Well that was my first guess…But before we start talking about the future of lasers (hello phasers), let’s take a look at where it all began.

It’s development in 1960 still stands as one of the major breakthroughs of the 20th Century.  Did you know that the groundwork for the laser took place in the early 1950s with the MASER; an AFOSR supported invention by the Nobel prize winning Dr. Charles Townes?  See, we’re learning things already.

In this video, meet some of AFOSR’s supported engineers and scientists who continue to push the boundaries of scientific discovery!

Video provided by Air Force Office of Scientific Research

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Set Phasers To Fry

Filed under STEM, Technology by on July 10, 2012 at 7:41 am {3 comments}

A guided lightning bolt travels horizontally, then hits a car when it finds the lower resistance path to ground. The lightning is guided in a laser-induced plasma channel, then it deviates from the channel when it gets close to the target and has a lower-resistance path to ground. (Photo Credit: U.S. Army photo)

Scientists and engineers at Picatinny Arsenal are busy developing a device that will shoot lightning bolts down laser beams to destroy its target.

Seriously.

Soldiers and science fiction fans, you’re welcome. 

We never got tired of the lightning bolts zapping our simulated (targets),” said George Fischer, lead scientist on the project.

The Laser-Induced Plasma Channel, or LIPC, is designed to take out targets that conduct electricity better than the air or ground that surrounds them. How did the scientists harness the seemingly random path made by lightning bolts and how does a laser help?

To understand how the technology, it helps to get a brief background on physics.

“Light travels more slowly in gases and solids than it does in a vacuum,” explained Fischer. “We typically think of the speed of light in each material as constant. There is, however, a very small additional intensity-dependent factor to its speed. In air, this factor is positive, so light slows down by a tiny fraction when the light is more intense.”

“If a laser puts out a pulse with modest energy, but the time is incredibly tiny, the power can be huge,” Fischer continued. “During the duration of the laser pulse, it can be putting out more power than a large city needs, but the pulse only lasts for two-trillionths of a second.”

Why is this important?
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Laser Weapons for Navy Ships

Filed under Physical Sciences, STEM, Technology, Videos by on May 14, 2012 at 7:50 am {no comments}

We are getting closer and closer to the laser beam, I can feel it. A military scientist operates a laser in a test environment. The United states Air Force Research Laboratory (AFRL) Directed Energy Directorate conducts research on a variety of solid-state and chemical lasers. (U.S. Air Force)

I’ve been waiting for this day for a long time.

The Navy…is getting LASER WEAPONS.

Eventually.

Okay, so it’s not right this second, but ONR is working to make it a reality.  To help sailors defeat small boat threats and aerial targets without using bullets, the Office of Naval Research (ONR) wants to develop a solid-state laser weapon prototype that will demonstrate multi-mission capabilities aboard a Navy ship.

“We believe it’s time to move forward with solid-state lasers and shift the focus from limited demonstrations to weapon prototype development and related technology advancement,” said Peter Morrison, program officer of the Solid-State Laser Technology Maturation (SSL-TM) program.

ONR will host an industry day May 16 to provide the research and development community with information about the program. A Broad Agency Announcement is expected to be released thereafter to solicit proposals and bids.

The Navy’s long history of advancing directed-energy technology has yielded kilowatt-scale lasers capable of being employed as weapons. Among the programs, the Maritime Laser Demonstration developed a proof-of-concept technology that was tested at sea aboard a decommissioned Navy ship.

The demonstrator was able to disable a small boat target: (more…)

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