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Small Times | June 24, 2009
Boston Micromachines Deformable Mirror Used in Subaru Observatory Project

Marketwire (June 24, 2009)

AMBRIDGE, MA, Jun 24, 2009 (MARKETWIRE via COMTEX) -- Boston Micromachines Corporation, a leading provider of MEMS-based deformable mirror (DM) products for adaptive optics systems, announced today that its Kilo-DM is being used in the Subaru Coronagraphic Extreme-AO project (SCExAO) in a direct imaging technique in the search for extrasolar planets. This system, which is aimed at imaging faint planets around stars, is currently under assembly and slated for on sky use in 2010.

The SCExAO system combines Boston Micromachines' Kilo-DM, a 1020-actuator MEMS deformable mirror for high accuracy wavefront correction and a high performance Phase Induced Amplitude Apodization (PIAA) coronagraph. SCExAO's goal is to view planets much fainter and closer to their stars than possible with current techniques. The foremost limit in current adaptive optics systems is the difficulty in determining the difference between a planet image and "speckles" which are actually starlight scattered across the image because of small residual wavefront error.

"The Kilo-DM enables us to actively test if light is starlight speckles or a real planet, using the fundamental property that starlight interferes with speckles, but planet light will not," said Olivier Guyon, astronomer at the Subaru Observatory and the University of Arizona. "With its high number of actuators, the Kilo-DM gives us the ability to rapidly modulate the wavefront in a way which tests, for each point in the image, if the light we are seeing is starlight or planet light. Laboratory tests have validated this new technique. We can measure speckles almost a billion times fainter than the central source."

"The discovery of extrasolar planets is an exciting field and we are happy that the excellent team at the Subaru Observatory has selected our mirrors for use in their system," said Paul Bierden, president and CEO of Boston Micromachines. "I believe that our deformable mirrors can be an enabling technology to help meet the challenging requirements of astronomical research."

Work is also underway with the University of Arizona to use the same technique on the Large Binocular Telescope and discussions are in process for high performance exoplanet imagers on future Extremely Large Telescopes.

The Kilo-DM is an enabling component for high spatial resolution wavefront control. It offers 1020 actuators in a 32x32 array, with clear aperture of 9.3 mm with 1.5 microns of deflection making it ideal for challenging applications. The systems include a deformable mirror, high speed controller, mirror interface, and high-density electrical interconnects.

 
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