Solar Probe Plus

Solar Probe Plus

Artist's concept of NASA's Solar Probe Plus
Operator NASA / Applied Physics Laboratory
Mission type Orbiter
Flyby of Venus (V7)
Satellite of The Sun
Launch date 2015
Mission duration < 10 years
Homepage solarprobe.jhuapl.edu
Orbital elements
Inclination 3.4°
Altitude ~5,900,000 km (3,700,000 mi)
Apoapsis 0.73 AU
Periapsis 9.5 RS
Orbital period 88 days
References: [1]

Solar Probe Plus, previously NASA Solar Probe, is a planned robotic spacecraft to probe the outer corona of the Sun.[2] It will approach to within 8.5 solar radii (0.04 astronomical units or 5.9 million kilometers or 3.67 million miles) to the 'surface' (photosphere) of the Sun.[2] The project was announced as a new mission start in the fiscal 2009 budget year. On May 1, 2008 Johns Hopkins University Applied Physics Laboratory announced it will design and build the spacecraft, on a schedule to launch it in 2015.[3]

Contents

Trajectory and mission

Early conceptual designs for the Solar Probe mission used a gravity assist maneuver at Jupiter to cancel the orbital angular momentum of the probe launched from Earth, in order to drop onto a trajectory close to the Sun. The Solar Probe Plus mission design simplifies this trajectory by using multiple gravity assists at Venus, to incrementally decrease the orbital perihelion to achieve multiple passes to approximately 8.5 solar radii, or about 6,000,000 km (3,700,000 mi).[4]

The mission survives the harsh environment near the Sun, where the incident solar intensity is approximately 520 times the intensity at Earth orbit, by the use of a solar shadow-shield. The solar shield, at the front of the spacecraft, is made of reinforced carbon-carbon composite. The spacecraft systems, and the scientific instruments, are located in the penumbra of the shield. The primary power for the mission will be by use of a dual system of photovoltaic arrays. A primary photovoltaic array, used for the portion of the mission outside of 0.25 AU, is retracted behind the shadow shield during the close approach to the Sun, and a much smaller secondary array powers the spacecraft through closest approach. This secondary array uses pumped-fluid cooling to maintain operating temperature.[5]

As the probe passes around the Sun, it will achieve a velocity of up to 200 km/s (120 mi/s) at that time making it the fastest manmade object ever, almost three times faster than the current record holder, Helios II.[6]

Scientific goals

See also

References

  1. ^ Applied Physics Laboratory (19 November 2008) (.PDF). Feasible Mission Designs for Solar Probe Plus to Launch in 2015, 2016, 2017, or 2018. Johns Hopkins University. http://solarprobe.jhuapl.edu/common/content/SolarProbePlusFactSheet.pdf. Retrieved 2010-02-27. 
  2. ^ a b Tony Phillips. "NASA Plans to Visit the Sun". NASA. http://science.nasa.gov/headlines/y2008/10jun_solarprobe.htm?list1065474. Retrieved 30 September 2010. 
  3. ^ M. Buckley (2008-05-01). "NASA Calls on APL to Send a Probe to the Sun". Johns Hopkins University Applied Physics Laboratory. http://www.jhuapl.edu/newscenter/pressreleases/2008/080501.asp. Retrieved 30 September 2010. 
  4. ^ "Solar Probe Plus: A NASA Mission to Touch the Sun:". JHU/APL. 4 September 2010. http://solarprobe.jhuapl.edu/. Retrieved 30 September 2010. 
  5. ^ G.A. Landis, P. C. Schmitz, J. Kinnison, M. Fraeman, L. Fourbert, S. Vernon and M. Wirzburger, "Solar Power System Design for the Solar Probe Mission," AIAA Paper-2008-5712, International Energy Conversion Engineering Conference, Cleveland OH, 28-30 July 2008.
  6. ^ Kerri Beisser (10 February 2011). "Solar Probe Plus: Mission Overview". JHU/APL. http://solarprobe.jhuapl.edu/mission/index.php. Retrieved 10 February 2011. 

External links