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NASA's Rossi X-ray Timing Explorer leaves scientific 'treasure trove'
by Staff Writers
Greenbelt MD (SPX) May 04, 2018

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NASA's decommissioned Rossi X-ray Timing Explorer (RXTE) satellite re-entered Earth's atmosphere on April 30. Orbiting for more than 22 years, the 6,700-pound satellite operated from 1996 to 2012, providing scientists with an unprecedented look into the extreme environments around neutron stars - also known as pulsars - and black holes.

The strong gravity of these objects can pull streams of gas from a nearby companion star and corral it in a vast storage zone called an accretion disk. The orbiting gas becomes heated by friction and reaches temperatures of millions of degrees - so hot, it emits X-rays. As the gas spirals inward, powerful bursts, flares and rapid pulsations can occur in the innermost accretion disk and on the surfaces of neutron stars. These X-ray signals vary on time scales ranging from a few seconds to less than a millisecond, providing important information on the nature of the compact object.

"Observing these X-ray phenomena with precise high-resolution timing was RXTE's specialty," said Jean Swank, an astrophysicist emeritus at NASA's Goddard Space Flight Center in Greenbelt, Maryland, who served as the mission's project scientist until 2010.

"During RXTE's run, no other observatory could provide these measurements."

RXTE far exceeded its original science goals and leaves behind an important scientific legacy. All data from the mission is open to the public and is maintained by Goddard's High Energy Astrophysics Science Archive Research Center.

"The data remain a treasure trove for studying compact objects, whether pulsars and stellar-mass black holes in our own galaxy or supermassive black holes in the cores of distant galaxies," said Goddard's Tod Strohmayer, who served as RXTE's project scientist from 2010 through the end of the mission.

"So far, more than 3,100 published papers in refereed journals, totaling over 95,000 citations, include RXTE measurements."

Watching how matter behaves in the vicinity of a black hole helps astronomers glimpse details about the nature of gravity itself. In 1997, RXTE provided what is widely regarded as the first observational evidence of "frame dragging," an effect predicted 79 years earlier by Austrian physicists Joseph Lense and Hans Thirring using Einstein's general theory of relativity.

In binary systems where black holes strip gas from a normal companion star, fast X-ray oscillations track hot blobs of gas orbiting deep within the accretion disk. These changes indicate that the inner disk wobbles in just the way relativity predicts. Like a bowling bowl spinning in molasses, the rotating black hole drags along nearby space-time - and with it, the inner accretion disk.

RXTE also showed that black holes of extremely different masses produce similar kinds of X-ray activity, just at varying time scales proportional to their masses. Stellar-mass black holes undergo key changes in a matter of hours, while their supermassive cousins, containing millions of solar masses, exhibit similar changes over years.

Only slightly less extreme than a black hole is a neutron star, the crushed core of a massive star that ran out of nuclear fuel, collapsed under its own weight and exploded as a supernova. Each one squeezes more than the Sun's mass into a ball roughly 12 miles (20 kilometers) across - about the length of New York City's Manhattan Island. Neutron stars typically possess magnetic fields up to 10 trillion times stronger than Earth's.

RXTE data helped establish the existence of a new class of neutron stars with magnetic fields a thousand times stronger. Dubbed magnetars, these objects boast the most powerful magnetic fields known in the cosmos. Of some 2,600 neutron stars now cataloged, only 29 rank as magnetars.

In the absence of RXTE, NASA's Neutron star Interior Composition Explorer (NICER), an instrument installed on the skyward side of the International Space Station, continues the study of variable X-ray sources.

"NICER is the successor to RXTE, with an order-of-magnitude improvement in sensitivity, energy resolution and time resolution," said Goddard's Keith Gendreau, the mission's principal investigator.

"The X-ray band NICER observes overlaps the lower end of RXTE's range, which means we can more easily take advantage of its long observational record."

The astronomical community has recognized the importance of RXTE research with five major awards. These include four Bruno Rossi Prizes (1999, 2003, 2006 and 2009) from the High Energy Astrophysics Division of the American Astronomical Society and the 2004 NWO Spinoza Prize, the highest Dutch science award, from the Netherlands Organization for Scientific Research. To learn more about the mission's accomplishments, see our RXTE gallery here.

The mission was launched as XTE aboard a Delta II 7920 rocket on Dec. 30, 1995, from Cape Canaveral Air Force Station in Florida. It was renamed RXTE in early 1996 to honor Bruno Rossi, an MIT astronomer and a pioneer of X-ray astronomy and space plasma physics who died in 1993. RXTE relayed its last scientific observations to the ground on Jan. 4, 2012. The following day, controllers at Goddard, which managed the mission, powered down the satellite.


Related Links
Rossi X-ray Timing Explorer (RXTE)
Stellar Chemistry, The Universe And All Within It


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Peering deep into space - an astounding 90 percent of the way across the observable universe - astronomers have witnessed the beginnings of a gargantuan cosmic pileup, the impending collision of 14 young, starbursting galaxies. This ancient megamerger is destined to evolve into one of the most massive structures in the known universe: a cluster of galaxies, gravitationally bound by dark matter and swimming in a sea of hot, ionized gas. Using the Atacama Large Millimeter/submillimeter Array ( ... read more

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