Announcement
Nobel Prize-Winning Laser Technology to Help Find Earth-like Planets
30 May 2012
The new technology of laser frequency combs (eso0826) [1] has now been tested with the HARPS [2] planet-finder on the ESO 3.6-metre telescope at the La Silla Observatory in Chile. Frequency combs provide reference light sources of extraordinary stability and have the potential to allow HARPS and similar instruments to make much more precise measurements than is currently possible [3]. This novel technique is expected to become a revolutionary tool for the astronomical community and help astronomers to find Earth-like planets in the habitable zones around nearby stars. The results are being presented in a paper to appear in the 31 May 2012 edition of the journal Nature.
A team of scientists from ESO, the Max Planck Institute of Quantum Optics (MPQ, Garching, Germany) and the Instituto de Astrofisica de Canarias (IAC, Tenerife, Spain) — led by Tobias Wilken, a researcher at MPQ — has used a laser frequency comb to perform a test observing run with HARPS. When using the new laser comb, the attainable precision of the measurements was found to have improved by a factor of at least four when compared to the limit achieved using older hollow-cathode lamp technology.
By applying this technique for the first time with HARPS, they mapped the orbit of the known planet orbiting the star HD75289. These measurements were consistent with previous results, showing the robustness of this tool for use with the next generation of spectrographs.
The frequency comb that was tested is a prototype of a system that is being developed by a collaboration between ESO, MPQ, Menlo Systems GmbH (Germany), the IAC and the Universidade Federal do Rio Grande do Norte (Brazil). It will be installed for routine operations in HARPS in the near future.
Several current hot astronomical research areas will benefit from this innovative technique, most significantly the detection of Earth-like planets. One of the most successful methods for finding planets around other stars is measuring the planet’s effect on the star’s motion by looking for tiny shifts in the parent star's spectral lines due to the Doppler effect [4]. These shifts are measured relative to a reference light source that must be extremely stable. The laser frequency comb offers a source that is significantly more stable than any available before. This means that measurements of velocities down to the level of only centimetres per second should be attainable.
If an observer elsewhere in the Galaxy wanted to detect the presence of the Earth as it orbits the Sun, they would have to measure the wobble of the Sun backwards and forwards over one year with equipment that was sensitive enough to pick up velocity changes with an amplitude of just 9 centimetres per second. This means that the use of frequency combs will make possible the detection of Earth-mass planets in the habitable zones around nearby stars by the radial velocity technique. Such planets are among the best candidates for bearing life outside the Solar System.
Looking further ahead, when the next generation of ground-based telescopes becomes available, such as the European Extremely Large Telescope (E-ELT), Laser frequency combs will become a vital tool for providing direct measurements of the acceleration of the expansion of the Universe.
Notes
[1] A Laser Frequency Comb is a coherent light source, emitting a narrow line spectrum, whose frequency differences lie in the radio regime and are exactly equal across its entire, comb-like spectrum. They are as accurate and stable as the atomic clock to which they are stabilised. The development of the first frequency comb was achieved separately by both the groups of T.W. Hänsch at the Max Planck Institute of Quantum Optics and J. L. Hall at the United States National Institute of Standards and Technology. It enabled measurement of transitions in atomic and molecular systems with unprecedented accuracy. In recognition of this achievement, T. W. Hänsch and J. L. Hall were awarded the 2005 Nobel Prize in Physics, the other half of which was awarded to R.J. Glauber.
[2] High Accuracy Radial velocity Planet Searcher.
[3] The spectrum of a laser frequency comb injected into a spectrograph like HARPS appears as a set of equal intensity, equally spaced emission lines, as opposed to the commonly used hollow cathode lamps, where the lines are defined by atomic transitions and their spacing and intensities are therefore not adjustable.
[4] The Doppler effect is the change in frequency of a wave for an observer moving relative to the source of the wave. Astronomical spectra are composed of numerous spectral lines of different chemical elements at well-defined frequencies. The Doppler effect is recognisable because these lines are not always at the frequencies that are obtained from the spectrum of a stationary light source. By using this technique, it is possible to reconstruct the orbits of exoplanets around distant stars.
Links
Contacts
Gaspare Lo Curto
ESO
Garching bei München, Germany
Tel: +49 89 3200 6346
Email: glocurto@eso.org
Tobias Wilken
Max Planck Institute of Quantum Optics
Garching bei München, Germany
Tel: +49 89 32905 285
Email: tobias.wilken@mpq.mpg.de
Our use of Cookies
We use cookies that are essential for accessing our websites and using our services. We also use cookies to analyse, measure and improve our websites’ performance, to enable content sharing via social media and to display media content hosted on third-party platforms.
ESO Cookies Policy
The European Organisation for Astronomical Research in the Southern Hemisphere (ESO) is the pre-eminent intergovernmental science and technology organisation in astronomy. It carries out an ambitious programme focused on the design, construction and operation of powerful ground-based observing facilities for astronomy.
This Cookies Policy is intended to provide clarity by outlining the cookies used on the ESO public websites, their functions, the options you have for controlling them, and the ways you can contact us for additional details.
What are cookies?
Cookies are small pieces of data stored on your device by websites you visit. They serve various purposes, such as remembering login credentials and preferences and enhance your browsing experience.
Categories of cookies we use
Essential cookies (always active): These cookies are strictly necessary for the proper functioning of our website. Without these cookies, the website cannot operate correctly, and certain services, such as logging in or accessing secure areas, may not be available; because they are essential for the website’s operation, they cannot be disabled.
Functional Cookies: These cookies enhance your browsing experience by enabling additional features and personalization, such as remembering your preferences and settings. While not strictly necessary for the website to function, they improve usability and convenience; these cookies are only placed if you provide your consent.
Analytics cookies: These cookies collect information about how visitors interact with our website, such as which pages are visited most often and how users navigate the site. This data helps us improve website performance, optimize content, and enhance the user experience; these cookies are only placed if you provide your consent. We use the following analytics cookies.
Matomo Cookies:
This website uses Matomo (formerly Piwik), an open source software which enables the statistical analysis of website visits. Matomo uses cookies (text files) which are saved on your computer and which allow us to analyze how you use our website. The website user information generated by the cookies will only be saved on the servers of our IT Department. We use this information to analyze www.eso.org visits and to prepare reports on website activities. These data will not be disclosed to third parties.
On behalf of ESO, Matomo will use this information for the purpose of evaluating your use of the website, compiling reports on website activity and providing other services relating to website activity and internet usage.
Matomo cookies settings:
Additional Third-party cookies on ESO websites: some of our pages display content from external providers, e.g. YouTube.
Such third-party services are outside of ESO control and may, at any time, change their terms of service, use of cookies, etc.
YouTube: Some videos on the ESO website are embedded from ESO’s official YouTube channel. We have enabled YouTube’s privacy-enhanced mode, meaning that no cookies are set unless the user actively clicks on the video to play it. Additionally, in this mode, YouTube does not store any personally identifiable cookie data for embedded video playbacks. For more details, please refer to YouTube’s embedding videos information page.
Cookies can also be classified based on the following elements.
Regarding the domain, there are:
- First-party cookies, set by the website you are currently visiting. They are stored by the same domain that you are browsing and are used to enhance your experience on that site;
- Third-party cookies, set by a domain other than the one you are currently visiting.
As for their duration, cookies can be:
- Browser-session cookies, which are deleted when the user closes the browser;
- Stored cookies, which stay on the user's device for a predetermined period of time.
How to manage cookies
Cookie settings: You can modify your cookie choices for the ESO webpages at any time by clicking on the link Cookie settings at the bottom of any page.
In your browser: If you wish to delete cookies or instruct your browser to delete or block cookies by default, please visit the help pages of your browser:
Please be aware that if you delete or decline cookies, certain functionalities of our website may be not be available and your browsing experience may be affected.
You can set most browsers to prevent any cookies being placed on your device, but you may then have to manually adjust some preferences every time you visit a site/page. And some services and functionalities may not work properly at all (e.g. profile logging-in, shop check out).
Updates to the ESO Cookies Policy
The ESO Cookies Policy may be subject to future updates, which will be made available on this page.
Additional information
For any queries related to cookies, please contact: pdprATesoDOTorg.
As ESO public webpages are managed by our Department of Communication, your questions will be dealt with the support of the said Department.