The new NASA Space Observatory is set to launch into orbit on Thursday with a crucial mission to map over 450 million galaxies.
The Spherex mission, short for the spectrophoton meter of space history, reionization epoch, and Ice Explorer history, will map the entire sky four times over two years, giving scientists the chance to study galaxy formation and uncover insights into the universe’s evolution.
“That’s going to answer the fundamental question: how did we get here?” Shawn Domagal-Goldman, acting director of the Astrophysics Division at NASA headquarters, stated in a recent news briefing.
Spherex is scheduled to be launched from the Vandenberg Space Force Base in California at 10:09 pm on Thursday.
The cone-shaped spacecraft will be launched on a SpaceX Falcon 9 rocket along with four suitcase-sized satellites deployed simultaneously for another NASA mission to study the sun.
NASA / JPL-Caltech
The $488 million Spherex mission has been in development for approximately 10 years. According to NASA, it aims to map objects using 102 infrared colors and light.
Infrared technology allows scientists to see through dust and gas, observing some of the oldest stars and galaxies in the universe. By utilizing spectroscopy, scientists can analyze the composition, density, temperature, and movement of celestial objects.
The Spherex Observatory employs spectrometers to explore the sky in three dimensions and study hundreds of millions of galaxies’ properties, as stated by Jamie Bock, a lead investigator at the Spherex mission and a physics professor at the California Institute of Technology.
Bock mentioned that these observations could provide insights into galaxy formation and allow researchers to examine the origins of water and other organic materials in the Milky Way galaxy.
“When you dissect light, you can determine the galaxy’s distance, construct a three-dimensional map, and identify the water fingerprint,” Bock explained.
Unraveling the origins of water can enhance scientific understanding of life’s evolution on Earth and possibly reveal clues about vital life components elsewhere in the galaxy.
“This new capability can lead to discoveries or surprises,” Bock added.
By mapping the celestial sky, the Spherex mission addresses one of astronomy’s enduring mysteries: The Big Bang that Created the Universe approximately 13.8 billion years ago.
One theory proposed in the late 1970s and early 1980s suggests the universe experienced a staggering trillion-fold expansion in the first fraction of a second post-big bang. Known as cosmic inflation, this theory aims to explain the universe’s curved geometry, structure formation, and rapid expansion.
However, astronomers have grappled with connecting the driving force behind this cosmic inflation and why it occurred. By meticulously mapping hundreds of millions of galaxies, the Spherex mission can test theories in new ways, aiding scientists in refining the physics underlying the universe’s inflation and rapid expansion.
“What Spherex does is test specific inflation models by tracking hundreds of millions of galaxies in three dimensions,” Brock noted.
Domagal-Goldman expressed that the Spherex Mission’s exploration of galaxies, cosmic inflation, and the universe’s origins could deepen human comprehension of basic physics.
“We are fortunate to live in an era where we can uncover answers about the universe’s long narrative of human existence on this planet,” he remarked.
Source: www.nbcnews.com
