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Remembering Riccardo Giacconi, X-Ray Astronomy Pioneer

Courtesy of NASA.gov

Riccardo Giacconi
Riccardo Giacconi (Credit: R.K. Morris)

NASA is saddened to note the passing of Riccardo Giacconi, who had a long and illustrious career with the agency.

“Riccardo set the standard for the way that NASA astrophysics is done, by involving the entire astronomy community in space missions via robust Guest Observer programs. We continue to benefit from his foresight,” said Paul Hertz, Director of Astrophysics at NASA.

Giacconi’s early sounding rocket work opened the field of X-ray astronomy, in which NASA continues to be a world leader. He led the sounding rocket experiment that discovered the first two non-solar cosmic X-ray sources: the X-ray background and the neutron star Scorpius X-1. This breakthrough led Giacconi to propose to NASA the Small Astronomy Satellite-A or SAS-A, renamed “Uhuru” at launch. The satellite produced the first catalog of cosmic X-ray sources.

He went on to develop the first focusing X-ray telescope, the Einstein Observatory, and then to write the proposal for NASA's Chandra X-ray Observatory. Chandra continues to operate today, and is the most sensitive X-ray observatory ever developed.

NASA was delighted when Giacconi won the Nobel Prize in Physics in 2002 “for pioneering contributions to astrophysics, which have led to the discovery of cosmic X-ray sources.”

Giacconi was also the first permanent director of the Space Telescope Science Institute (STScI) in Baltimore, Maryland. Under his leadership from 1981 to 1993, STScI developed the expertise and capabilities to direct the science mission of the Hubble Space Telescope.

Happy 40th Birthday, Einstein Observatory

HEAO 2/Einstein Observatory
Einstein Observatory/HEAO 2

On November 13, 1978, the High Energy Astrophysical Observatory 2 (HEAO-2) blasted into space from Cape Canaveral, Florida. Renamed the Einstein Observatory after it was successfully placed into orbit, this was the first fully imaging telescope dedicated to looking at X-rays beyond the Sun.

The Einstein Observatory and the Smithsonian Astrophysical Observatory (SAO), part of the Harvard-Smithsonian Center for Astrophysics in Cambridge, Mass., are forever linked. The telescope was conceived, proposed to NASA, run by, and its data processed by SAO. The original conception for Einstein came from a group at the American Science & Engineering company, led by Nobel Prize-winner Riccardo Giacconi, which moved to SAO in 1973. SAO’s Leon van Speybroeck, who would later become the Telescope Scientist for Chandra, designed the telescope for Einstein.

In addition to being the first X-ray telescope capable of making images, Einstein was an extremely important mission for other reasons. For example, the Einstein Observatory set aside about a quarter of its observing time for a “Guest Observer” program. SAO’s Fred Seward headed the Guest Observer program and ensured an open, competitive process that enabled scientists who were not part of the original consortium to propose observations and to analyze Einstein data.

Playing it Safe: Chandra's Return to Science Observations

PS 01247+4630
Credit: NASA/CXC/Trinity University/D. Pooley et al.

On October 10th, NASA’s Chandra X-ray Observatory went into “safe mode,” following a glitch on one of the telescope’s gyroscopes. After hard work by the team at the Chandra X-ray Center, the problem was identified and solved, allowed Chandra to resume science observations less than two weeks later on October 21st.

One of the first targets that Chandra looked at after its return to science was PS 0147+4630, a gravitationally-lensed quasar. What is that exactly? A quasar is a supermassive black hole that is rapidly consuming gas from its surroundings. The gas falls into a disk around the black hole where it becomes hot and generates prodigious amounts of radiation. Gravitational lensing is a phenomenon, first predicted by Einstein, where light from a very distant source is bent by a massive intervening object, such as a large galaxy or a galaxy cluster. This creates multiple images of a single, faraway object and amplifies the brightness of the light, acting in some ways as a natural magnifying glass.

Skeletons and Spacecraft: An X-ray Halloween

Skeleton in space

It’s that excellent time of year again when skeletons become all the rage. With Halloween just around the corner, the good folks at the Oregon Zoo released a series of X-ray images that show the fascinating — and a little bit spooky — skeletons of some of their animals.

Those of us who work for NASA’s Chandra X-ray Observatory share an affinity for X-ray images. After all, we’ve been in the business of collecting X-rays from space for nearly 20 years. During that time, we’ve observed X-rays coming from material falling into black holes, the remains of exploded stars, galaxies, and much, much more.

What’s the connection between X-rays from a doctor’s (or vet’s office) and those of a space-based telescope? A medical X-ray machine consists of two parts: an X-ray source at one end, and a camera at the other. The body or body part is placed in between. When the X-rays from the source shine, the camera records the X-rays that reach the photographic film or detector.

Carnival of Space

The Carnival of Space is a round up of astronomy and space-related blogs that started back in 2007. Every week, a different webmaster or blogger hosts the carnival, showcasing articles written on the topic of space. This week, it's our turn to host the Carnival here on the Chandra blog. Enjoy!

There’s a lot of news happening out there on the ground so let’s make sure we keep an eye on the latest from space in this week’s Carnival of Space.

At Universe Today, there were a slew of good posts to consider:

Artist’s impression of SpaceX’s proposed Mars Base Alpha.
Artist’s impression of SpaceX’s proposed Mars Base Alpha. Credit: SpaceX

Author Matt Williams discusses how his experience as a science journalist helped become a better science fiction writer. https://www.universetoday.com/140285/how-science-journalism-helped-me-be...

Tammy Plotner takes us on a tour of the globular cluster NGC 6681, a.k.a. Messier 70, in their series of Messier Monday. https://www.universetoday.com/37776/messier-70-1/

A report on the recent acquisition of a Danish freighter by Blue Origins updates us on the latest from the race to affordability by private space companies: https://www.universetoday.com/140375/blue-origin-will-be-landing-its-roc...

Q&A on Chandra's Safe Mode and Gyroscopes, Part II

(Q&A on Chandra's Safe Mode and Gyroscopes, Part I)

Chandra

On October 21, Chandra returned to science observations, less than two weeks after a glitch in one of its four gyroscopes caused it to go into Safe Mode. To answer some of the questions surrounding Chandra’s gyroscopes, members of the Chandra X-ray Center and its Flight Operations Team have put together this Q&A.

The Winter 'AstrOlympics' Kick Off

Winter Olympic Ice Skater

As the athletes get set to compete in Pyeongchang, Korea, the public can explore the Olympic Games in a different way through an innovative project blending science and sports. “AstrOlympics” relates the amazing feats of Olympic athletes with the spectacular phenomena found throughout space.

This project from NASA’s Chandra X-ray Observatory highlights the physical connections between sport and space. Examining various topics including speed, distance, time, mass, rotation, and pressure, AstrOlympics explores the impressive range of these different physical properties.

What Chandra & X-ray Astronomy Give Back

Illustration of Chandra X-ray Observatory
Illustration of Chandra X-ray Observatory

This week marks the 18th anniversary of Chandra’s “First Light,” when the first publicly available images from NASA’s flagship X-ray mission were released back in 1999 . Week after week, month after month, year after year, Chandra continues to deliver amazing results and make truly extraordinary discoveries across space. Scientists know so much more about the Universe now than we did before this amazing telescope began its work.

Black Holes and Vacuum Cleaners: Using Metaphors to Explain Space Images

Scientific imagery, especially those from space, can be both powerful and beautiful. The images created by professional and amateur astronomers alike are often striking. This gives science communicators an opportunity to use such images as an access point for the related subject matter. In other words, scientific images are a door through which we can walk towards the discoveries and insight that science can achieve.

The Aesthetics & Astronomy project (A&A) is a unique research project that aims to study exactly how people from different backgrounds and educational experiences interpret and interact with scientific imagery. Started at the Chandra X-ray Center and combining the expertise of astrophysicists, psychologists, image producers, and educators specializing in research methodology, A&A delves into how these images can be used as a vehicle for scientific information.

One question that A&A recently asked is: how effective are metaphors in communicating scientific results? To explore this question, the A&A project solicited input from nearly 2,000 participants and asked a series of questions through an online study. After presenting participants with four astronomical images — Sagittarius A*, Our Sun (solar flare), Cassiopeia A, and the Pinwheel Galaxy — they were shown three separate labels for each.

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