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Space Station experiment to probe origins of elements
by Agency Writers
Washington DC (SPX) Sep 01, 2022


Astronomer Carl Sagan put it best: "We're made of star stuff." The atoms that make up the chemicals of our bodies didn't originate on Earth; they came from deep space. The big bang created hydrogen, helium, and a little bit of lithium, but heavier atoms - the ones essential for life - came from processes related to stars.

Scientists can now probe deeper. Which kinds of stellar processes produce which elements? And which kinds of stars are involved?

A new experiment called TIGERISS, envisioned for the International Space Station, aims to find out. TIGERISS has been chosen as the latest NASA Astrophysics Pioneers mission.

Pioneers are small-scale astrophysics missions that enable innovative investigations into cosmic phenomena. They may include experiments designed to fly on small satellites, scientific balloons, the space station, and payloads that could orbit or land on the Moon.

Earlier this year, the four previous Pioneers mission concepts, chosen in January 2021, were given the green light to move forward with construction and have been approved to fly later this decade.

"The Pioneer missions are an invaluable opportunity for early to mid-career scientists to conduct compelling astrophysics investigations, while gaining real experience in building space-based instrumentation," said Mark Clampin, director of the astrophysics division at NASA Headquarters in Washington. "With TIGERISS, the Pioneers expand their reach to the space station, which offers a unique platform for exploring the universe."

Eye of the TIGER
TIGERISS Principal Investigator Brian Rauch, research associate professor of physics at Washington University in St. Louis, has been working on questions of elemental origins and high-energy particles since he was an undergraduate there. For nearly three years in college, Rauch worked on a particle detector called Trans-Iron Galactic Element Recorder, or TIGER. The experiment had its first flight on a balloon in 1995; long-duration balloon flights also launched a version of TIGER from Antarctica in 2001 to 2002 and 2003 to 2004.

As Rauch progressed in his research career, he helped TIGER evolve into the more sophisticated SuperTIGER. On Dec. 8, 2012, SuperTIGER launched from Antarctica on its first flight, cruising at an average altitude of 125,000 feet and setting a new record for longest scientific balloon flight - 55 days. SuperTIGER also flew for 32 days from December 2019 to January 2020. The experiment measured the abundance of elements on the periodic table up to barium, atomic number 56.

On the International Space Station, the TIGER instrument family will soar to new heights. Without the interference from Earth's atmosphere, the TIGERISS experiment will make higher-resolution measurements and pick up heavy particles that wouldn't be possible from a scientific balloon. A perch on the space station will also allow for a larger physical experiment - 3.2 feet (1 meter) on a side - than could fit on a small satellite, increasing the potential size of the detector. And the experiment could last more than a year, compared to less than two months on a balloon flight. Researchers plan to be able to measure individual elements as heavy as lead, atomic number 82.

Star Stuff
All stars exist in a delicate balance - they need to put out enough energy to counteract their own gravity. That energy comes from fusing elements together to make heavier ones, including carbon, nitrogen, and oxygen, which are important for life as we know it. But once a giant star tries to fuse iron atoms, the reaction doesn't generate enough power to fight gravity, and the star's core collapses.

This triggers an explosion known as a supernova, in which shock waves cast out all of those heavy elements that had been made in the star's core. The explosion itself also creates heavy elements and accelerates them to nearly the speed of light - particles that scientists dub "cosmic rays."

But that's not the only way heavy atoms can form. When a superdense remnant of a supernova called a neutron star collides with another neutron star, their cataclysmic merger also creates heavy elements.

TIGERISS won't be able to point out particular supernovae or neutron star collisions, but "would add context as to how these fast-moving elements are accelerated and travel through the galaxy," Rauch said.

So how much do supernovae and neutron star mergers each contribute to making heavy elements? "That is the most interesting question we can hope to address," Rauch said.

"TIGERISS measurements are key to understanding how our galaxy creates and distributes matter," said John Krizmanic, TIGERISS's deputy principal investigator based at NASA's Goddard Space Flight Center in Greenbelt, Maryland.

TIGERISS will also contribute information on the general abundance of cosmic rays, which pose a hazard to astronauts.

Other contributing institutions on TIGERISS include Howard University in Washington; Pennsylvania State University in State College; University of Maryland, Baltimore County; and Northern Kentucky University in Highland Heights.

First Pioneers Moving Forward
TIGERISS joins four experiments in the Pioneers program that are at a more advanced stage of development, having passed their initial review this year. The cost cap for Pioneers missions is $20 million, limiting the scope of these concepts to small-scale projects. For all four principal investigators of the new missions, this program represents their first time serving as a principal investigator for a space mission.

+ Aspera is a SmallSat that will study galaxy evolution. Through observations in ultraviolet light, it will examine hot gas in the space between galaxies and the inflow and outflow of gas from galaxies. The principal investigator is Carlos Vargas at the University of Arizona in Tucson.

+ Pandora is a SmallSat that will study 20 stars and their 39 exoplanets in visible and infrared light. It is aimed at disentangling the signals from stars and planetary atmospheres. The principal investigator is Elisa Quintana of NASA's Goddard Space Flight Center in Greenbelt, Maryland.

+ StarBurst is a SmallSat that will detect high-energy gamma rays from events such as the mergers of neutron stars, which are thought to create heavy elements like platinum and gold. This would provide valuable insight into such events, which are also detected through gravitational waves by observatories on Earth. The principal investigator is Daniel Kocevski of NASA's Marshall Space Flight Center in Huntsville, Alabama.

+ PUEO (Particle Astrophysics with the Payload for Ultrahigh Energy Observations) is a balloon mission designed to launch from Antarctica that will detect signals from ultrahigh-energy neutrinos, particles that contain valuable clues about the highest-energy astrophysical processes, including the creation of black holes and neutron star mergers. The principal investigator is Abigail Vieregg of the University of Chicago.

Related Links
Pioneers Mission Concepts
Space Technology News - Applications and Research

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