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Successful 2K-DM Delivery to JPL and Continued WFIRST Development

Posted by Philip Zeng on Wed, Oct 10, 2018 @ 11:25 AM

Tags: exoplanet, NASA, deformable mirror, SBIR/STTR, astronomy, JPL, 2K-DM, WFIRST

Boston Micromachines successfully delivered the world’s first fully-functioning 2K-DM to NASA’s Jet Propulsion Laboratory (JPL) as part of NASA’s Phase II Small Business Innovation Research (SBIR) program! With 2040 actuators, this mirror will be a contributing element to the BMC’s goal of developing DM technology for next generation space-based telescopes for exoplanet imaging.

What is even more exciting is that the NASA SBIR program has decided to extend our contract into its Phase II-X program in which BMC will deliver additional deformable mirrors for evaluation and potential inclusion in the Wide Field Infrared Survey Telescope (WFIRST) program. The WFIRST program is a NASA mission concept of a next-generation space telescope that will play a role in the next steps of exoplanet and dark energy research for astronomers and scientists. This is scheduled to launch in the mid-2020s. Check out more here.

wfirst_spaceArtist rendering of WFIRST telescope, planned for a mid-2020 launch. Courtesy of NASA.

 This project has provided BMC the experience and the opportunity to begin the first steps towards the production of even higher actuator count DMs, 8,000 actuators or more, for space-based and ground-based telescopes.

8K

Much credit goes to all involved on both the BMC and JPL teams for working together on future developments of mirror technology for future space missions and exoplanet searching. 

For the full press release, it can be found here: 

 

 

 

 

 

       8K-DM layout.

SPIE Astro 2018. Exoplanets galore

Posted by Michael Feinberg on Thu, Jun 28, 2018 @ 08:30 AM

Tags: exoplanet, Robo-AO, astronomy, NASA, telescopes, SPIE, adaptive optics, deformable mirror

I attended the SPIE Astronomical Telescopes and Instrumentation event in Austin, Texas recently and while I enjoyed the music and incredible bar-b-que,  I thought it might be a good idea to summarize what I learned and the most interesting things mentioned about adaptive optics research.

Exoplanet research is alive and well

I am happy to say this.  We have been developing bigger and better mirrors for both ground-based and space-based telescopes here at BMC and they are targeted specifically for this use.

Here are the programs which I heard the most about last week:

MagAOX

Our 2K-DM will be shipping soon to the folks at the Magellan Telescope working on MagAOX, their planet-finding instrument. And, we have been discussing the design of gthe next generation instrument for the Giant Magellan Telescope, GMagAOX, which includes no less than seven 3K-DMs totaling over 21,000 actuators to be used for an order-of-magnitude higher level of control.  Logo Credit: Kyle Van Gorkom, University of Arizona

While I am sad to see the Gemini Planet Imager instrument mission end at the Gemini South Observatory (which includes our 4K-DM), I am excited for the next phase that is set to begin at Gemini North in Hawaii.  The location study is ongoing and will yield which components will get an upgrade.  While I am always excited about delivering a newer, better DM, I am proud of the performance of the 4K-DM and would be just as happy if that workhorse kept on running!

SCExAO just  keeps on going.  That is all.

SCExAO 2K DM

Seriously, though.  The expected science yield from this instrument is extremely exciting and I look forward to seeing more images in the near future!  Check out their site hereImage credit:  Olivier Guyon, University of Arizona

Finally, on the space-based front, Habex and LUVOIR designs are in motion and both are baselining BMC’s technology for the final design. Click the link here to see a recent article about AO and see a picture of the layout of our biggest mirror, the 8K-DM.  I have a quote 😊.

Don’t forget about all of the other science!

There is so much else going on and I couldn’t possibly list it all. Work at Lawrence Livermore National Labs is ongoing to develop an extremely low latency AO system called “LLAMAS.” Small(ish) telescopes are utilized as well to do some amazing data collection. I would be remiss if I didn’t mention Robo-AO which is now in the process of moving from Kitt Peak to the UH88 telescope in Hawaii.  And, Robo-AO2, otherwise known and the Rapid Transit Surveyor, is in the midst of design and build and will be online soon.

Rapid Transit Surveyor

Rapid Transit Surveyor.  Image Credit:  Christoph Baranec

Final thoughts

The astronomical instrumentation field is alive and well and adaptive optics has become an integral part of almost all of the major installations in service, being built or being designed.  We are excited for the field and especially proud to be involved in the programs that required our high speed, high resolution devices to push science forward!