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'SPHEREx' space observatory delivered for February launch

21 Jan 2025

Telescope to carry out all-sky surveys in unprecedented spectral detail, thanks to 102-color spectrophotometer.

BAE Systems says it has successfully delivered the “SPHEREx” space observatory to Vandenberg Space Force Base in California, ahead of a planned launch in late February.

Short for “Spectro-Photometer for the History of the Universe, Epoch of Reionization and Ices Explorer”, the NASA mission is expected to create three-dimensional, colored maps of more than 450 million galaxies, plus millions of Milky Way stars, over the course of a two-year-plus survey.

The defense contractor highlights the use of an advanced near-infrared imager developed by NASA's Jet Propulsion Laboratory (JPL) and the California Institute of Technology (Caltech) for the SPHEREx mission that will enable it to survey the entire sky at more than 100 wavelengths.

“This data will provide the scientific community with novel insights on the formation of the universe in the moments after the Big Bang, help determine how galaxies evolve over time, and seek out water and other life-sustaining molecules in areas where planets are forming,” announced the firm.

All-color sky maps
Initially signed with Ball Aerospace, which has since been acquired by BAE Systems, the SPHEREx mission will be used to identify targets of interest for follow-up studies in greater detail by other observatories, including the James Webb Space Telescope.

The Ball-BAE team built both the spacecraft bus and telescope for the observatory, in addition to leading spacecraft integration and environmental testing for the mission. The company will also support launch operations and post-launch spacecraft commissioning.

Said to be approximately the size of a sub-compact car, SPHEREx is due to enter a polar orbit around Earth and create a map of the entire sky in 3D, by capturing images in every direction.

It is scheduled to produce four complete all-sky maps over the course of the mission, each of which will contain hundreds of millions of stars and galaxies, and capture detail at an unprecedented 102 different wavelengths.

Those SPHEREx maps should enable scientists to study the rapid expansion of the universe that is thought to have taken place just a fraction of a second after the Big Bang.

“The observatory also will measure the collective glow from galaxies near and far, including light from hidden galaxies that individually haven’t been observed, and look for reservoirs of water, carbon dioxide, and other key ingredients for life in our home galaxy,” says NASA.

Dichroic beam-splitter
The observatory is based around a triple-mirror telescope with an effective diameter of 20 cm, and a 11°x3.5° field of view. According to Caltech the focal plane is split with a special optical component into three short-wavelength, and three long-wavelength detector arrays.

Using the dichroic beam-splitter means that two focal plane assemblies (FPAs) can simultaneously image the sky. Each FPA contains three 2000 x 2000 pixel mercury-cadmium-telluride arrays placed behind a set of filters, providing a narrow-band response with a band center that varies along one axis of the array.

SPHEREx then obtains spectra through multiple exposures, placing a given source at multiple positions in the field of view, where it is measured at multiple wavelengths by repointing the spacecraft.

Caltech's Dr. Jamie Bock, the mission's principal investigator, said: “The development of SPHEREx represents a remarkable collaborative effort between BAE Systems, JPL, Caltech, and numerous other institutions that helped to make this groundbreaking mission a reality."

Brian Pramann, the SPHEREx program manager at BAE Systems’ Space & Mission Systems division, added: “After years of complex design, manufacturing, integration and testing efforts, our team can't wait to see SPHEREx launch.”

• Accompanying SPHEREx in the launch payload on board a reusable Falcon 9 rocket from SpaceX will be NASA’s “PUNCH” mission.

Short for “Polarimeter to Unify the Corona and Heliosphere”, PUNCH comprises four small satellites that are designed to take global, three-dimensional observations of the Sun's corona, to better understand how the mass and energy there turns into solar wind.

Sacher Lasertechnik GmbHOptikos Corporation Mad City Labs, Inc.HÜBNER PhotonicsAlluxaBerkeley Nucleonics CorporationIridian Spectral Technologies
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