Flyby Anomalies Explained?

By Nancy Atkinson - September 18, 2008 at 8:40 PM UTC | Physics
rosettaflyby.jpg

[/caption] Several different spacecraft have exhibited unexplained changes in speed during gravity assists when flying by Earth. First there was Galileo in 1990 and 1992, NEAR, which flew by Earth in January 1998, and then Cassini in August of 1999. Rosetta -- the ESA spacecraft that recently flew by an asteroid â€" swung by the home planet in March 2005, followed by MESSENGER in August of the same year. All these probes showed an expected change in speed during the flyby. The largest anomaly was recorded for NEAR, whose velocity changed 13 millimeters per second more than it should have. Earlier this year, a group of JPL researchers that had been working on the problem for years basically threw up their hands, saying they hoped other physicists could come up with a solution. They had concluded the anomaly was too large to be explained by known effects related to Einstein's general theory of relativity. But a new paper proposes that Special Relativity may explain everything.

The speed of the spacecraft is measured by the Doppler shift in radio signals from the spacecraft to the antennas of the Deep Space Network. In a very

short and concise paper

, (reading it is like watching

Will Hunting

solve the MIT professor's equation), Jean Paul Mbelek from CEA-Saclay in France says that the relative motion of the spacecraft and the spinning Earth have not been properly accounted for. When a well known but overlooked effect of Special Relativity is taken into account, where the transverse Doppler effect of the Earth’s spin and the velocity of the craft are factored in, there is no flyby anomaly. "Thus, GR (General Relativity) does not need to be questioned and the flyby anomaly is merely due to an incomplete analysis using conventional physics," says Mbelek.

[caption id="attachment_18339" align="alignnone" width="236" caption="flyby-anomaly. credit: arXiv blog"]

[/caption] Other explanations had proposed

dark matter

or

"Unruh radiation"

could be the answer. But Mbelek says we just haven't been doing the physics right. He concludes that spacecraft "flybys of heavenly bodies may be viewed as a new test of Special Relativity which has proven to be successful near the Earth." He proposes a follow-up of tracking the spacecraft trajectories beyond just the probes' closest approach to Earth to test this hypothesis further.

Sources:

arXiv,

arXiv blog

Nancy Atkinson

Nancy Atkinson

Nancy Atkinson is a space journalist and author with a passion for telling the stories of people involved in space exploration and astronomy. She is currently retired from daily writing, but worked at Universe Today for 20 years as a writer and editor. She also contributed articles to The Planetary Society, Ad Astra (National Space Society), New Scientist and many other online outlets.

Her 2019 book, "Eight Years to the Moon: The History of the Apollo Missions,” shares the untold stories of engineers and scientists who worked behind the scenes to make the Apollo program so successful, despite the daunting odds against it. Her first book “Incredible Stories From Space: A Behind-the-Scenes Look at the Missions Changing Our View of the Cosmos” (2016) tells the stories of 37 scientists and engineers that work on several current NASA robotic missions to explore the solar system and beyond.

Nancy is also a NASA/JPL Solar System Ambassador, and through this program, she has the opportunity to share her passion of space and astronomy with children and adults through presentations and programs. Nancy's personal website is nancyatkinson.com