Astronomy and Astrophysics – Astrophysics
Scientific paper
Dec 2001
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2001eso..pres...28.&link_type=abstract
ESO Press Release, 12/2001
Astronomy and Astrophysics
Astrophysics
Scientific paper
HST and VLT Identify MACHO as a Small and Cool Star
Summary
An international team of astronomers [2] has observed a Dark Matter object directly for the first time .
Images and spectra of a MACHO microlens - a nearby dwarf star that gravitationally focuses light from a star in another galaxy - were taken by the NASA/ESA Hubble Space Telescope (HST) and the European Southern Observatory's Very Large Telescope (VLT) .
The result is a strong confirmation of the theory that a large fraction of Dark Matter exists as small, faint stars in galaxies such as our Milky Way .
PR Photo 35a/01 : HST image of a MACHO. PR Photo 35b/01 : VLT spectrum of a MACHO. The Riddle of Dark Matter
The nature of Dark Matter is one of the fundamental puzzles in astrophysics today. Observations of clusters of galaxies and the large scale structure of individual galaxies tell us that no more than a quarter of the total amount of matter in the Universe consists of normal atoms and molecules that make up the familiar world around us. Of this normal matter, no more than a quarter emits the radiation we see from stars and hot gas. So, a large fraction of the matter in our Universe is dark and of unknown composition .
For the past ten years, active search projects have been underway for possible candidate objects for Dark Matter. One of many possibilities is that the Dark Matter consists of weakly interacting, massive sub-atomic sized particles known as WIMPs . Alternatively, Dark Matter may consist of massive compact objects ( MACHOs ), such as dead or dying stars (neutron stars and cool dwarf stars), black holes of various sizes or planet-sized collections of rocks and ice. The MACHOs
In 1986, Bohdan Paczynski from Princeton University (USA) realised that if some of the Dark Matter were in the form of MACHOs, its presence could be detected by the gravitational influence MACHOs have on light from distant stars.
If a MACHO object in the Milky Way passes in front of a background star in a nearby galaxy, such as the Large Magellanic Cloud (LMC), then the gravitational field of the MACHO will bend the light from the distant star and focus it into our telescopes. The MACHO is acting as a gravitational lens, increasing the brightness of the background star for the short time it takes for the MACHO to pass by.
Depending on the mass of the MACHO and its distance from Earth, this period of brightening can last days, weeks or months. The form and duration of the brightening caused by the MACHO - the microlensing "light curve" - can be predicted by theory and searched for as a clear signal of the presence of MACHO Dark Matter.
MACHOs are described as "microlenses" since they are much smaller than other known cases of gravitational lensing, such as those observed around clusters of galaxies, cf. ESO PR 19/98. Observations of microlensing events have been done on many occasions with ESO telescope with intersting results, e.g., the recent detection of a corona of a distant star in the Milky Way ( ESO PR 17/01 ). The MACHO Project
Astronomers from the Lawrence Livermore National Laboratory , the Center for Particle Astrophysics in the United States and the Australian National University joined forces to form the "MACHO Project" in 1991. This team [2] used a dedicated telescope at the Mount Stromlo Observatory in Australia to monitor the brightness of more than 10 million stars in the Large Magellanic Cloud (LMC) over a period of eight years.
The team discovered their first gravitational lensing event in 1993 and have now published approximately twenty instances of microlenses in the direction of the Magellanic Clouds. These results demonstrate that there is a population of MACHO objects in and around the Milky Way galaxy that could comprise as much as 50% of the Milky Way total (baryonic/normal-matter) Dark Matter content. Hubble obtains the first direct image of a MACHO
ESO PR Photo 35a/01
ESO PR Photo 35a/01 [Preview - JPEG: 400 x 387 pix - 36k] [Normal - JPEG: 800 x 774 pix - 87k]
ESO PR Photo 35a/01 is based on three exposures from the WFPC2 camera at the NASA/ESA Hubble Space Telescope , obtained in the V-, R- and I-bands (shown as blue, green and red, respectively). It shows the first image of a Dark Matter object - a MACHO (a massive compact object). It is the red object that is indicated with an arrow and very near to the upper left (at 2 o'clock) of a blue background star. This MACHO is a nearby red dwarf star that gravitationally focused light from the blue background star in another galaxy in a so-called microlensing event. Since the event six years ago, the MACHO has moved 0.134 arcseconds on the sky and can now be clearly separated in the Hubble image.
In order to learn more about each microlensing event, the MACHO team has used the Hubble Space Telescope (HST) to take high-resolution images of the lensed stars.
One of these images showed a faint red object within a small fraction of an arcsecond from a blue, normal (main-sequence) background star in the Large Magellanic Cloud ( ESO PR Photo 35a/01 ).
The image was taken by Hubble 6 years after the original microlensing event, which had lasted approximately 100 days. The brightness of the faint red star and its direction and separation from the star in the Large Magellanic Cloud are completely consistent with the values indicated 6 years earlier from the MACHO light curve data alone.
This Hubble observation further reveals that the MACHO is a small faint, dwarf star at a distance of 600 light-years, and with a mass between 5% and 10% of the mass of the Sun. The VLT adds spectral information
ESO PR Photo 35b/01
ESO PR Photo 35b/01 [Preview - JPEG: 400 x 319 pix - 37k] [Normal - JPEG: 1003 x 800 pix - 144k]
ESO PR Photo 35b/01 shows a composite spectrum of the two very close objects seen on the HST image ( PR Photo 35a/01 ). It is based on four 1500-second exposures that were obtained with the FORS2 multi-mode instrument at the 8.2-m VLT KUEYEN telescope on February 2, 2001. The presence of certain metal and alkali resonance lines, in particular of sodium (Na), is typical of a cool stellar object. Telluric molecular bands (from the Earth's atmosphere) are indicated with an earth-symbol.
To further confirm these findings, members of the MACHO team sent in a special application for observing time on the FORS2 instrument on the ESO 8.2-m VLT KUEYEN Unit Telescope to obtain spectra of the object. ESO responded swiftly and positively to the request. Although it was not possible to separate the spectra of the MACHO and background star, the combined spectrum ( PR Photo 35b/01 ) showed the unmistakable signs in the red spectral region of the deep absorption lines of a dwarf M star superimposed on the spectrum of the blue main sequence star in the Large Magellanic Cloud. The nature of Dark Matter
The combination of the microlensing light curve from the MACHO project, the high-resolution images from Hubble and the spectroscopy from the VLT has established the first direct detection of a MACHO object, to be published in the international science journal "Nature" on December 6, 2001.
Thanks to the HST and VLT observations, the astronomers now have a complete picture of this particular MACHO: its mass, distance and velocity. The result greatly strengthens the argument that a large fraction of the 'normal' Dark Matter in and around our galaxy exists in the form of MACHOs. Thus this Dark Matter is not as dark as previously believed!
Future searches for MACHO-like objects will have the potential to map out this form of Dark Matter and reach a greater understanding of the role that Dark Matter plays in the formation of galaxies. These efforts will further strengthen the drive to reveal the secrets of Dark Matter and take a large step towards closing the books on the mass budget of the Universe. Note
[1]: This is a joint Press Release by the European Southern Observatory (ESO) and the Hubble European Space Agency Information Centre. The Hubble Space Telescope is a project of international co-operation between ESA and NASA.
[2]: The MACHO collaboration is made up of
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