CU-Boulder Returns $3 Million in Cost-Savings to NASA
June 17, 2008 The University of Colorado at Boulder took an unusual step today by returning $3 million in cost savings to NASA for an award-winning satellite mission designed, built and controlled by the university to study how the sun's variation influences Earth's climate and atmosphere.
Known as the Solar Radiation and Climate Experiment, or SORCE, the $100 million mission centered at CU-Boulder's Laboratory for Atmospheric and Space Physics was launched by NASA in 2003 and is controlled from the LASP Space Technology Building at the CU Research Park. A $3 million check for the cost savings from SORCE development and operations was presented by LASP officials to Stephen Volz, associate director for flight programs in NASA's Earth Sciences Division, at a LASP event June 17.
SORCE Receives 4-Year Extension to Study the New Solar CycleSept. 2007 I'm sure you have heard of the old cliché wondering if a tree falls in the forest and nobody is present to observe it, does it really occur? With the interesting, but controversial, predictions of the next solar cycle maximum perhaps being higher or lower than the past cycle maximum, there is much interest in how the next cycle might evolve. But how will we know what the results are if we are not observing the solar irradiance during the next maximum that is expected to occur in 2012? This might have been the case, but fortunately NASA has recently extended the Solar Radiation and Climate Experiment (SORCE) for another four years past its planned termination date of January 2008.
The SORCE mission provides direct measurements of the total solar irradiance (brightness) and also spectral measurements of the solar irradiance, both being critical to observe how the solar variations might evolve during the next cycle maximum. The SORCE extension, along with the possible extension of the NASA TIMED mission with its solar ultraviolet irradiance measurements, will provide for the first time, the total solar radiative output (total irradiance) and the spectral distribution of this radiation from X-rays to the infrared (spectral irradiance) during solar maximum conditions.
The SORCE mission has been extended for 4 more years until January 2012. The majority of the work is at CU-LASP for the daily operation of the satellite and instruments using a combination of professionals and students and for the data analysis and distribution of solar irradiance results to the public. The SORCE mission is operated as a PI-mode mission at CU-LASP with Dr. Tom Woods as the PI (original PI is Dr. Gary Rottman, who retired in 2005) and is supported by NASA GSFC.
The Sun Approaches Its 11 Year Minimum and Activity Cycle 24
June 2007 Observations reveal that magnetic activity on the Sun varies dramatically over time, with a near periodic 11-year cycle. Large dark sunspots are frequently observed on the Sun during solar maximum and few, if any, sunspots are seen during solar minimum. Figure 1 compares images of the Sun’s visible disk during high (left) and low (right) solar activity. Sunspot occurrence is an indicator of a change in the Sun’s energy output. In addition to the sunspots, large bright prominences called faculae—faculae is a Latin word that means small torches—are more commonly observed during solar maximum. The occurrence of sunspots and faculae changes the total energy output from the Sun—total solar irradiance. (Read more...)
Enhanced SORCE Data Products
March 2007 The SORCE Science Data System (SDS) performs all science data production activities. It consists of the hardware and software components necessary to generate, manage, and distribute all SORCE standard science data products. The SORCE SDS routinely produces total solar irradiance and solar spectral irradiance data products on a daily basis. The Science Data System utilizes raw spacecraft and instrument telemetry, routinely-maintained calibration data, and other ancillary information to produce and distribute a variety of data products that have been corrected for all known instrumental and operational effects. (Read more)