Area served worldwide Founded 1999 | Headquarters Cambridge | |
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Industry Deformable mirror
Adaptive Optics
MEMS Founder Dr. Thomas Bifano
Paul Bierden Products Customized adaptive optics enabled MEMS products including deformable mirrors, optical modulators, retro-reflectors, and ophthalmoscopes Website BostonMicromachines.com | ||
Boston micromachines corporation
Boston Micromachines Corporation is a US company operating out of Cambridge, Massachusetts. Boston Micromachines manufactures and develops instruments based on MEMS technology to perform open and closed-loop adaptive optics. The technology is applied in astronomy, beam shaping, vision science, retinal imaging, microscopy, laser communications, and national defense. The instruments developed at Boston Micromachines include deformable mirrors, optical modulators, and retinal imaging systems, all of which utilize adaptive optics technology to enable wavefront manipulation capabilities which enhance the quality of the final image.
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History
Founded in 1999 by Dr. Thomas Bifano and Paul Bierden, Boston Micromachines is a provider of MEMS-based mirror products for use in commercial adaptive optics systems which apply wavefront correction to produce high resolution images of the human retina and enhance blurred images. The company also performs research in optical MEMS fabrication.
Research and Development
Boston Micromachines is funded in part by research programs and develops new products for astronomy, microscopy, pulse shaping, beam shaping, fiber coupling, space optics, retinal imaging, and national defense purposes.
Most recently, Boston Micromachines has developed an Adaptive Optics Scanning Laser Ophthalmoscope for high-resolution in vivo imaging in the human retina for use in pre-clinical studies. The instrument is currently in use in the Feinberg School of Medicine and the Joslin Diabetes Center. Capabilities include quantitative measures of cone physiology, detection of microaneurysms and small vessel blood flow profiling.
Their products are often customized for specific applications.
Astronomy
Boston Micromachines develops deformable mirrors for telescopes to correct for atmospheric disturbance. Projects currently using Boston Micromachines' mirror technology include the ViLLaGEs Project at the Lick Observatory as well as the Gemini Planet Imager in Chile.
Biological Imaging
Through the use of adaptive optics, deformable mirrors can be used to enhance Confocal techniques such as two-photon excitation fluorescence (2PEF), second- and/or third-Harmonic Generation (SHG/THG, respectively), Coherent anti-Stokes Raman spectroscopy (CARS), Scanning laser ophthalmoscopy (SLO), Optical coherence tomography (OCT) as well as conventional wide-field microscopy. Of particular interest is that deformable mirrors increase the resolution of retinal images to achieve ~2 µm resolution levels. Photoreceptor cells are around 3 µm in diameter. Without adaptive optics, resolution levels are in the 10-15 µm range. Research using other confocal techniques is currently taking place at such locations as the University of Durham, Harvard University and Boston University.
Laser beam and pulse shaping
Boston Micromachines deformable mirrors are capable of correcting for atmospheric distortion in long distance laser communication and other pulse shaping applications.