Hubble Space Telescope

This post is part one in a two-part series.

How does what Hubble sees become what you see? The first part involves moving science data from the sky to the ground—a complicated matter.

When Hubble views an astronomical target, the digital information from that observation is stored onboard the telescope’s solid-state data recorders. The telescope records all of its science data to prevent any possible loss of unique information. Hubble’s flight operations team at Goddard Space Flight Center, in Greenbelt, Maryland manages the content of these recorders.

Four antennae aboard Hubble send and receive information between the telescope and the ground. To communicate with the flight operations team, Hubble uses a group of NASA satellites called the Tracking and Data Relay Satellite System (TDRSS). Located in various positions across the sky, the TDRSS satellites provide nearly continuous communications coverage with Hubble.

Hubble’s operators periodically transmit the data from Hubble through TDRSS to TDRSS’s ground terminal at White Sands, New Mexico. From there, the data are sent via landline to Goddard to ensure their completeness and accuracy.

Goddard then transfers the data over landlines to the Space Telescope Science Institute in Baltimore, Maryland for processing, calibration, and archiving. There, they are translated into scientific information, such as wavelength and brightness, and ultimately into the iconic images that have become the hallmark of Hubble.

We’ll discuss how those images are made in a future post.

Image Credit: Ann Feild, STScI

The Frontier Fields project is an ambitious, multi-year cosmology research project using Hubble and many other telescopes. Describing the astronomy motivation, science concepts, planning, coordination, and execution is a long and daunting task. The Principal Investigator, Jennifer Lotz, recently gave a public-level presentation that was an hour long, with much of her discussion necessarily condensed.

Now, folks don’t always have that kind of time to spend learning about a new project. What about the short version: the so-called elevator pitch?

To address that need, we created a two-minute video overview of the Frontier Fields. We trimmed the astronomical story to its essentials, gathered and developed scientific visuals, and attempted to express it it all in just nine sentences.

The video below was part of our press release at the American Astronomical Society winter meeting in January 2014. It won’t make you a cosmology expert, but it will provide the essential character of one of the most important projects amongst Hubble’s current programs. I directed (and narrated) this video, and would welcome any comments or questions.

As for all those scientific details that we glossed over or skipped, well, that’s one of the main motivations of this blog. Stay tuned.

Frontier Fields: Exploring the Depths of the Universe

This video presents an overview of the Frontier Fields project. While Hubble has a celebrated history of deep field observations, astronomers can use massive galaxy clusters as gravitational lenses to see a little farther into space and a little further back in time. This ambitious, community-developed project is a collaboration among NASA’s Great Observatories to probe the earliest stages of galaxy development. Initial data from this multiyear effort was presented at the American Astronomical Society Meeting in January 2014.

Credit: NASA, ESA, and F. Summers, B. Lawton, M. Lussier, G. Bacon, and D. Coe (STScI)

Music: “The Moments of Our Mornings” (K. Engel)/CC BY-NC 3.0