Home Up Feedback Contents Search

Comments

This is a historical page from the old MaxMax.com website. Please use the current site at www.MaxMax.com.


 

 

 

This is just a note from a happy MaxMax customer.  Back in 2007 you performed a mod on a Canon 5D which we have used to search for Vulcanoid  asteroids.  You did an excellent job of maintaining a clean sensor when you replaced the filter and we appreciated the effort.

Last year we used the camera during a total solar eclipse in the Gobi (in far NW China) to image stars as faint as +13.5 magnitude.  And while we have not detected any Vulcanoid asteroids (perhaps due to their size being smaller than 4 km in diameter, or their shyness, or perhaps due to the fact that they may not exist :-)) we set a record for imaging stars that were 10 billion billion times fainter than the Sun that were only a few degrees from the Solar disc.

Our near-IR imaging success has found applications outside Astronomy as well.  We used the 5D at the Kilauea Volcano in Hawaii to discover near-IR images a previously unknown magma pocket under the floor of the Kilauea caldera, and to show that lava, ejected from lava tube (near Kalapana, below the Pu'u O'o vent) was oscillating at 14 Hz due to shock waves traveling through an underground lava tube.

And even farther afield, we used the 5D to help a forestry research project calibrate their near-IR imagers: cameras that are being used to detect the early onset of beetle and fungus attacks in trees.

Each time we were happy to refer research teams to your company and recommend that they make use of your near-IR conversion services and/or purchase near-IR cameras from your site.

We are in the process of updating our Vulcanoid search article that was published in a collection of NASA/S&T articles contained in a eclipse booklet published by Sky & Telescope for eclipse chasers.  Our updated article will include a recommendation that Vulcanoid searches image in the near-IR wavelengths.  We plan to briefly mention your company in our article (subject to the S&T editorial policy) as a good source for near IR cameras.  We plan to say something like:

            Another technique that holds great promise is to use cameras that are sensitive to both visual and near IR wavelengths.  The surface temperature of objects residing within the stable Vulcanoid zone could be as high as 825°C (1517°F) due to their close proximity to the Sun.  Such objects are expected to be strong radiators in the IR portion of the spectrum.  SLR cameras made sensitive to the near IR, such as those modified by MaxMax (www.maxmax.com), offer a relatively inexpensive near IR detector solution while avoiding the cooling and thermal shield problems associated with chilled mid and far IR sensors.  A near IR sensitive SLR camera combined with a deep red filter such as a Wratten RG 695 (092) filter is an excellent choice for Vulcanoid hunting.

Best wishes,

Landon Curt Noll

Fremont Peak Observatory

American Astronomical Society Associate member

 

                                

 

Send mail to [email protected] with questions or comments about this web site.
Last modified: June 16, 2015