Laser Research Optics is introducing a new line of gold plated copper mirrors for Mitsubishi high power lasers that are available for immediate delivery to minimize production downtime.
Laser Research copper Laser Mirrors are manufactured with > 99% pure gold deposited on OFHC copper and are offered in three plano types: zero phase shift, 90 degree phase shift, and 98.8% resonator mirrors. Featuring OEM quality, they have 1/20 power flatness, 1/40 irregularity at 10.6 μm, and surface quality of < 5nm RMS and 40-20 scratch-dig.
Available in 50mm, 60mm, and 3" dia. sizes with +0/-0.12mm tolerance, Laser Research copper Laser Mirrors for Mitsubishi lasers are suitable for beam bending in all beam paths and beam guidance systems, from simple measurement setup to high performance cutting, claims the firm.
Laser Research copper Laser Mirrors for Mitsubishi lasers are priced from $149.95 each. Price quotations are available upon request.
About Laser Research Optics
Laser Research Optics is a division of Meller Optics, Inc., a leading manufacturer of hard crystalline materials such as ruby and sapphire since 1921. The company maintains one of the largest inventories of stock CO2 optics in the country. Available for immediate delivery, the optics are ideal for direct field replacement in low power CO2 lasers currently being used for laser marking, laser engraving, laser cutting, and low power scribing and welding.
The hope is that everyone will join.
“If you are an individual who likes to experiment with things, try new ideas out, you don’t have to be a techie,” says Knight. “Just to get your hands on something, this is the place to come.”
City Paper visited several makerspaces to compare and contrast, and talk to members and founders about their goals.
The Baltimore Hackerspace is a big warehouse bay in a warehouse district full of guys chewing cigars and driving pallets around on 18-wheelers. Just inside the main door is a concrete floor area with tables and people working on projects. The rules—including Ohm’s Law—are hung on the walls. Picture the garage of a mad scientist who is married to a performance artist. There is an air-conditioned inner sanctum crowded with another communal table and shelves and computers. Mark Haygood is there, chatting with Powell and King, the latter of whom wrote the computer code that controls Haygood’s robot, HEX (“Robocop,” City Folk, May 1).
Powell shows off an amplifier kit he and King are marketing on Ubld.it, the company they just launched. It’s a kit of parts the size of a very big sandwich, with some diodes, a vacuum tube, and instructions. It puts out 8 monophonic watts and it sounds pretty good hooked up to a homemade speaker.
“Our mission is to build a whole bunch of different kits here with good instructions so people can learn and get into the hobby,” Powell says. “We tell you not only, ‘solder this here,’ but also what it does.”
Out in the main space, Knight, a network administrator for Philips Healthcare, explains why he’s building a robot. “We have a telemedicine unit,” he says, and a few months ago his boss asked him to look into getting a rolling robot, head high to a seated person, so medical specialists could potentially examine and interview many patients remotely. That’s how Knight knows they cost $10,000.
Read the full story at scfwindturbine.com web! If you love wind turbines, welcome to contact us!
There is a chance you are eligible for a new solar energy rebate program.
回覆刪除Click here and find out if you are eligble now!