* Astronomy

 It began with two comets (Wild 2 and Tempel 1), two spacecraft (Stardust and Deep Impact) and two encounters. But before the four objects orbit their separate ways, their dance may get more intricate -- with two recombining to form a new couple; one pushing forward toward an unfamiliar match, and one left to finish solo.
Led by Cornell astronomy professor Joe Veverka, a team of astronomers and engineers made a final pitch on May 15 to lead the proposed Stardust New Exploration of Tempel 1 (Stardust NExT) mission. Their presentation came at an all-day site review at NASA's Jet Propulsion Lab (JPL) in Pasadena.
If the mission gets the go-ahead, Stardust NExT will use the still-healthy Stardust spacecraft -- which dropped off a capsule of dust from the comet Wild 2 in the Utah desert last year -- to observe the comet Tempel 1 two years after a probe released by the Deep Impact spacecraft carved a crater into that comet's surface.

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Donald Brownlee found a message in a 4.5-billion-year-old bottle, and it's an intriguing read.
The bottle is a comet known as Wild 2, formed during our solar system's infancy.
The message is contained in a collection of particles gathered by the Stardust spacecraft.

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Stardust's Data May Be Contaminated
The origin of the universe has been the subject of scienceand science fictionfor centuries. NASAs Stardust Mission, launched in 1994, aimed to put an end to the pondering once and for all by collecting samples from Comet Wild-2, which scientists believed might still contain materials from the universes conception (and which recently brought more details about the diversity of comets themselves). When the mission finally returned to Earth last year (and we tracked its landing from the air), the samples revealed the presence of osbornite, which indicates that the big beginning was hotter and more violent than scientists had previously imagined.

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It has been nearly a year since Stardust successfully released the capsule that returned the Wild 2 dust particles to earth and sent its last signal before being placed in a hibernation state. That situation changed when the Spacecraft Team (SCT) recently radiated commands to have STARDUST resume communications in order to determine the spacecraft's health for a follow-on mission to the comet Tempel 1. As usual, the reliable spacecraft responded to our commands and the signal was received at the expected time. There was concern that a large solar flare last December could have placed the spacecraft in an unknown state. The first telemetry indicated a processor reboot had occurred but the spacecraft's subsystems were in excellent condition. After restoring communication, the remainder of the Deep Space Network (DSN) pass was used to obtain the history data for the last year.

After saying "bon voyage" on January 29, 2006, the spacecraft passed through its perihelion (0.92 AU), the closest approach to the sun for the spacecraft, and made it safely through. On July 10, 2006, a spontaneous reboot of the processor occurred. The cause of the reboot is unknown but was probably due to solar/space interference. The spacecraft returned itself to its safe mode state and continued
The spacecraft returned itself to its safe mode state and continued cruising. On December 7, 2006, another large solar flare created problems for the Star Camera. After struggling for several hours to obtain good star images, an attitude control error caused the spacecraft to re-enter safe mode. Once again the spacecraft returned to its nominal safe mode state where it remained until contacted last Monday.

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