Sarah L. Krizmanich Telescope

Last updated
Sarah L. Krizmanich Telescope
Sarah L. Krizmanich Telescope.jpg
Location(s)Jordan Hall of Science, University of Notre Dame, du lac, Notre Dame, IN
Coordinates41°42'01"N, 86°13'54'W 41°42′01″N86°13′54″W / 41.70028°N 86.23167°W / 41.70028; -86.23167
Organization University of Notre Dame, Optical Guidance Systems
Altitude225 m
Wavelength Visible
First light Sep 21, 2013
Diameter0.8 m (31.5 in)
Focal length f/8 (6.4 m)
Mounting Altazimuth
EnclosureAsh Dome, Plainfield, IL
Website https://physics.nd.edu/
World location map (equirectangular 180).svg
Red pog.svg
Location of Sarah L. Krizmanich Telescope
[ edit on Wikidata]

The Sarah L. Krizmanich Telescope (SLKT) is located at the Jordan Hall of Science on the University of Notre Dame campus. The SLKT is a 0.8-m Optical Guidance Systems [1] reflecting telescope and it is used for undergraduate astronomy and astrophysics research and teaching. [2] Discoveries concerning the nature of cataclysmic variable stars, and a potential exoplanet, have been obtained using the Krizmanich Telescope. [3] [4] [5]

Contents

Installation and memorial

In November 2003, construction of the Jordan Hall of Science began at the University of Notre Dame Campus. The $70 million, 200,000 square foot facility was underwritten by 1969 Notre Dame graduate John W. "Jay" Jordan III of Chicago. [6] The new building featured laboratories, classrooms, two large lecture halls, faculty offices, a greenhouse, and an astronomical observatory. [7] A planetarium, or "digital visualization theater" (DVT) was also included in the new building. [8] Described as a "neo Gothic" structure, the Jordan Hall of Science was dedicated in September, 2006. [9]

Late Notre Dame professor Terrence Rettig (1946-2021) played an important role in establishing the campus observatory and DVT. According to Notre Dame professor Peter Garnavich, Rettig was "the founder of astronomy at Notre Dame." [10]

In 2013, the 0.8 meter (32 inch) Sarah L. Krizmanich Telescope was installed in a rooftop observatory at the Jordan Hall of Science. [11] The telescope is one of the largest in Indiana [12] and was built for undergraduate research and as a testing instrument for new instrumentation. The telescope is conveniently located on campus for student use. [13] [4]

The telescope was a gift from the Krizmanich family [13] [14] and is named in memory of Notre Dame student Sarah L. Krizmanich. [15] [11] According to her sister Amy Krizmanich, "Sarah had a love for teaching and a passion for helping others." [13]

Specifications

Telescope is an Optical Guidance Systems 0.8 m Ritchey-Chretien reflector. Image displays altitude gear behind a clear cover. Sarah L. Krizmanich Telescope, University of Notre Dame.jpg
Telescope is an Optical Guidance Systems 0.8 m Ritchey-Chretien reflector. Image displays altitude gear behind a clear cover.
A CCD camera is mounted on the Nasymth focus position of the telescope mount. Sarah L. Krizmanich Telescope, Jordan Hall of Science, University of Notre Dame SBIG Camera.jpg
A CCD camera is mounted on the Nasymth focus position of the telescope mount.

Designed by Optical Guidance Systems, [16] the 0.8 m, f/8 Krizmanich Telescope is a reflecting telescope featuring a Ritchey-Chretien (RC) optical system. An RC system is designed for imaging with a CCD camera. [17] The telescope employs an altazimuth mount. Light collected by the telescope mirrors can be diverted towards a sensor or eyepiece located either behind the primary mirror or, using a third mirror, out along the alitude axis towards the side of the telescope. This position along the altitude axis is termed a Nasmyth focus and is used for many large observatory telescope such as the Keck Telescopes in Hawaii. [18] [19] The telescope utilizes a Santa Barbara Instruments Group (SGIG) charged coupled device (CCD) camera to collect data. [20] Colored filters are also employed to observe starlight in different wavelengths. [14] The telescope can be equipped with an eyepiece. This configuration has been used for public astronomy-themed outreach events at Notre Dame. [21]

The observatory, telescope, and camera are operated remotely from an adjacent workroom or from the researcher's homes. [5] [11]

Research and outreach

In 2016, Peter Garnavich and Colin Littlefield of Notre Dame used the Krizmanich Telescope to discover an unusual dimming in the cataclysmic variable star system FO Aquarii, a binary star system featuring a white dwarf and main sequence star. [3] [22] [14]

In 2018, Garnavich, Littlefield, and Robert Stiller of Notre Dame published observations of the AR Scorpii binary star system which features the first known [23] white dwarf pulsar. The white dwarf orbits a red dwarf star in a cataclysmic variable system. [24] Data from the Krizmanich Telescope was used to measure the slowing down of the white dwarf's rate of rotation. [4] [25]

The Jordan Hall of Science held a public outreach event during the rare 2012 transit of Venus. Hosted by Notre Dame professor Arielle Phillips, safe solar viewing glasses were provided along with a live broadcast of the transit displayed in a lecture hall. Although the Krizmanich Telescope was not used for this event, members of the Michiana Astronomical Society provided telescope viewing of the transit in front of Jordan Hall near the sundial. The first half of the transit, when Venus appeared in silhouette as a black disk against the bright solar surface, was visible from northern Indiana. [26]

A "Summer Stargazing" outreach event held on July 6, 2018, at the Notre Dame campus drew an estimated 1,500 people. The event, hosted by Notre Dame professor Jonathan Crass, used the Krizmanich Telescope and six other smaller telescopes set up on the rooftop observatory to provide views of the night sky for attendees. [21] Crass also founded the Notre Dame Our Universe Revealed [27] series of public lectures. [2]

As an undergraduate student at Notre Dame, McKenna Leichty performed research using the Krizmanich Telescope under the tutelage of Peter Garnavich. [5] Observations of cataclysmic variable V808 Aurigae obtained with the Krizmanich Telescope revealed the presence of a potential 7 Jupiter-mass exoplanet in an elongated, eccentric orbit about the white dwarf/red dwarf binary system. The exoplanet exhibits an orbital period of about 11 years and is named V808 Aurigae b. [28] [29]

See also

Jordan Hall Observatory dome housing the Krizmanich Telescope. Jordan Hall Observatory dome.jpg
Jordan Hall Observatory dome housing the Krizmanich Telescope.

Related Research Articles

<span class="mw-page-title-main">Pulsar</span> Rapidly rotating neutron star

A pulsar is a highly magnetized rotating neutron star that emits beams of electromagnetic radiation out of its magnetic poles. This radiation can be observed only when a beam of emission is pointing toward Earth, and is responsible for the pulsed appearance of emission. Neutron stars are very dense and have short, regular rotational periods. This produces a very precise interval between pulses that ranges from milliseconds to seconds for an individual pulsar. Pulsars are one of the candidates for the source of ultra-high-energy cosmic rays.

<span class="mw-page-title-main">Calar Alto Observatory</span> Observatory in Almería, Spain

The Calar Alto Observatory is an astronomical observatory located in Almería province in Spain on Calar Alto, a 2,168-meter-high (7,113 ft) mountain in the Sierra de Los Filabres subrange of the Sierra Nevada.

<span class="mw-page-title-main">Nu Aurigae</span> Variable star in the constellation Auriga

Nu Aurigae, Latinised from ν Aurigae, is the Bayer designation for a star in the northern constellation of Auriga. It is visible to the naked eye with an apparent visual magnitude of 3.96 and is approximately 200 light-years distant from the Earth. This is an evolved giant star with a stellar classification of G9.5 III. It is a red clump star, which indicates that it is generating energy through the fusion of helium at its core. The outer envelope has expanded to 18 times the radius of the Sun and cooled to 4,576 K, giving it the characteristic yellow-hued glow of a G-type star. It shines with 126 times the luminosity of the Sun.

<span class="mw-page-title-main">Las Cumbres Observatory</span> Nonprofit organization and astronomical observatory

Las Cumbres Observatory (LCO) is a network of astronomical observatories run by a non-profit private operating foundation directed by the technologist Wayne Rosing. Its offices are in Goleta, California. The telescopes are located at both northern and southern hemisphere sites distributed in longitude around the Earth. For some astronomical objects, the longitudinal spacing of telescopes allows continuous observations over 24 hours or longer. The operating network currently consists of two 2 meter telescopes, nine 1 meter telescopes, and seven 40 cm telescopes, placed at six astronomical observatories. The network operates as a single, integrated, observing facility, using a software scheduler that continuously optimizes the planned observing schedule of each individual telescope.

<span class="mw-page-title-main">FO Aquarii</span> Star in the constellation Aquarius

FO Aquarii is an intermediate polar star system in the constellation Aquarius. The white dwarf and companion star orbit each other with a period of approximately 4.85 hours. The system is famous for a very strong optical pulsation which occurs every 20.9 minutes, corresponding with the rotational period of the accreting white dwarf. Prior to 2016, the system's long-term optical brightness varied between apparent magnitude 12.7 and 14.2, but in early 2016, it faded to magnitude 15.8 and thereafter began a slow recovery to its normal brightness, behavior which is indicative of a temporary dropoff in the mass-transfer rate between the two stars.

Daniel Apai is a professor and astrophysicist at The University of Arizona in Tucson, Arizona. He is known for his studies of astrobiology, extrasolar planets, and the formation of planetary systems. He is the principal investigator of the Earths in Other Solar Systems team of NASA's Nexus for Exoplanet System Studies and the Hubble Space Telescope Cloud Atlas Treasury program, and Project EDEN, a large survey for habitable planets in the immediate solar neighborhood. He is leading the Nautilus Space Observatory space telescope concept and co-leading the technology development underpinning it.

The Kilodegree Extremely Little Telescope is an astronomical observation system formed by two robotic telescopes that are conducting a survey for transiting exoplanets around bright stars. The project is jointly administered by members of Ohio State University Department of Astronomy, the Vanderbilt University Department of Physics and Astronomy Astronomy Group, the Lehigh University Department of Physics, and the South African Astronomical Observatory (SAAO).

<span class="mw-page-title-main">Next-Generation Transit Survey</span> Ground-based robotic search for exoplanets

The Next-Generation Transit Survey (NGTS) is a ground-based robotic search for exoplanets. The facility is located at Paranal Observatory in the Atacama Desert in northern Chile, about 2 km from ESO's Very Large Telescope and 0.5 km from the VISTA Survey Telescope. Science operations began in early 2015. The astronomical survey is managed by a consortium of seven European universities and other academic institutions from Chile, Germany, Switzerland, and the United Kingdom. Prototypes of the array were tested in 2009 and 2010 on La Palma, and from 2012 to 2014 at Geneva Observatory.

<span class="mw-page-title-main">Peter Garnavich</span>

Peter M. Garnavich is a faculty member of the Department of Physics and Astronomy at the University of Notre Dame. His primary research area is the study of supernovae and their diversity. He has also studied gamma ray bursts and cataclysmic variable stars. Garnavich is a member of a supernova search team that contributed to the discovery of dark energy in 1998. At Notre Dame, Garnavich has developed and participated in collaborations using the Spitzer Space Telescope, the Large Binocular Telescope, the Hubble Space Telescope, and the Kepler Space Telescope. He was named a fellow of the American Astronomical Society (AAS) in 2024.

GJ 9827 is a star in the constellation of Pisces. It is a K-type main-sequence star with an apparent magnitude of 10.250. It is 97 light-years away, based on parallax.

<span class="mw-page-title-main">HIP 65426 b</span> Hot Jupiter exoplanet orbiting HIP 65426

HIP 65426 b, formally named Najsakopajk, is a super-Jupiter exoplanet orbiting the star HIP 65426. It was discovered on 6 July 2017 by the SPHERE consortium using the Spectro-Polarimetric High-Contrast Exoplanet Research (SPHERE) instrument belonging to the European Southern Observatory (ESO). It is 385 light-years from Earth. It is the first planet discovered by ESO's SPHERE instrument.

<span class="mw-page-title-main">Kevin France</span>

Kevin France is an astrophysicist and assistant professor in the Department of Astrophysical and Planetary Sciences at the University of Colorado. His research focuses on exoplanets and their host stars, protoplanetary disks, and the development of instrumentation for space-borne astronomy missions.

<span class="mw-page-title-main">GI Monocerotis</span> 1918 Nova in the constellation Monoceros

GI Monocerotis, also known as Nova Monocerotis 1918, was a nova that erupted in the constellation Monoceros during 1918. It was discovered by Max Wolf on a photographic plate taken at the Heidelberg Observatory on 4 February 1918. At the time of its discovery, it had a photographic magnitude of 8.5, and had already passed its peak brightness. A search of plates taken at the Harvard College Observatory showed that it had a photographic magnitude of 5.4 on 1 January 1918, so it would have been visible to the naked eye around that time. By March 1918 it had dropped to ninth or tenth magnitude. By November 1920 it was a little fainter than 15th magnitude.

L 98-59 is a bright M dwarf star, located in the constellation of Volans, at a distance of 10.608 parsecs, as measured by the Gaia spacecraft.

The Cosmological Advanced Survey Telescope for Optical and UV Research (CASTOR) is a proposed space telescope mission led by the Canadian Space Agency. With its 1-meter diameter primary mirror, CASTOR would provide imaging capabilities in the ultraviolet (UV) and blue-optical regions at a spatial resolution similar to that of the Hubble Space Telescope, but over an instantaneous field of view about 100 times larger. CASTOR was selected as Canada's highest priority for space astronomy in the 2020s in the 2020 Long Range Plan for Canadian Astronomy.

<span class="mw-page-title-main">Napoleon III Telescope (University of Notre Dame)</span> Historic 6-inch refracting telescope

The Napoleon III Telescope is an historic 6-inch refracting telescope owned by the University of Notre Dame. The telescope was given to the university in 1867 by French Emperor Napoleon III and is housed in an observatory on the top of the Nieuwland Hall of Science. The objective lens of the telescope was designed by the French physicist Léon Foucault who is best known for a pendulum experiment that demonstrated earth's rotation.

References

  1. "Customers". Optical Guidance Systems. Retrieved 2024-06-17.
  2. 1 2 "Jonathan Crass | Outreach". jcrass.space. Retrieved 2024-06-21.
  3. 1 2 Wallheimer, Brian (2017-01-16). "Notre Dame astrophysicists discover dimming of binary star". Notre Dame News. Retrieved 2024-06-05.
  4. 1 2 3 McCool, Deanna Csomo (2018-09-11). "Notre Dame researchers determine spin-down rate of rare white dwarf pulsar". Department of Physics and Astronomy. Retrieved 2024-06-05.
  5. 1 2 3 Schlehuber, Madeline (2024-04-22). "Undergraduate McKenna Leichty discovers probable planet with help from Krizmanich Telescope atop Jordan Hall". College of Science. Retrieved 2024-06-17.
  6. Fosmoe, Margaret (Feb 5, 2005). "ND receives $40 million from Chicago businessman". South Bend Tribune. pp. A1, A6. Retrieved Jun 27, 2024.
  7. Fosmoe, Margaret (Oct 22, 2003). "ND building moratorium coming to an end". South Bend Tribune. pp. D3. Retrieved Jun 5, 2024.
  8. Snyder, Daric (Sep 7, 2006). "The State of Science" (PDF). Notre Dame Scholastic. Vol. 148, no. 2. pp. 9–14. Retrieved Jun 5, 2024.
  9. "ND opens $70 million undergrad science hall". South Bend Tribune. Sep 15, 2006. pp. B1. Retrieved Jun 27, 2024.
  10. Sieff, Jessica (2022-01-01). "Terrence Rettig (1946–2021)". Bulletin of the AAS. 54 (1). doi: 10.3847/25c2cfeb.5f2ca6a3 . ISSN   0002-7537.
  11. 1 2 3 Jang, Charley (Spring 2014). "Notre Dame Reaching for the Stars: Sarah L. Krizmanich Telescope" (PDF). Scientia Undergraduate Journal of Scientific Research University of Notre Dame. 5: 1, 8.
  12. "Observatories in IN | 2024 List | GO ASTRONOMY". www.go-astronomy.com. Retrieved 2024-06-17.
  13. 1 2 3 Gilroy, William G. (2013-09-24). "Notre Dame installs new telescope on Jordan Hall". Notre Dame News. Retrieved 2024-06-13.
  14. 1 2 3 Garnavich, Peter; Littlefield, Colin; Boyle, Rebecca S.; Kennedy, Mark (2022-10-24), "The Intermediate Polar FO Aquarii Has Not Been the Same Since Recovering from a Series of Low States", Research Notes of the American Astronomical Society, 6 (10): 221, arXiv: 2210.13492 , Bibcode:2022RNAAS...6..221G, doi: 10.3847/2515-5172/ac9bf7
  15. "Sarah L Krizmanich obituary". The South Bend Tribune. 2004-04-16. pp. D5. Retrieved 2024-06-17.
  16. "On the front and back covers" (PDF). Scientia: Undergraduate Journal of Science Research University of Notre Dame. 6: 1, 3, 25. Spring 2015.
  17. "OGS Optics". Optical Guidance Systems. Retrieved 2024-06-17.
  18. "RC32-2000AA" (PDF). Optical Guidance Systems. Retrieved Jun 20, 2024.
  19. "Interfacing Visitor Instruments to the Keck Telescopes". www2.keck.hawaii.edu. Retrieved 2024-06-20.
  20. "SBIG Cameras - Astronomy & Scientific Imaging Solutions". Diffraction Limited. Retrieved 2024-06-20.
  21. 1 2 McCool, Deanna Csomo (2018-07-19). "Summertime Stargazing event draws large crowd". College of Science. Retrieved 2024-06-17.
  22. Littlefield, Colin; Garnavich, Peter; Kennedy, Mark R.; Aadland, Erin; Terndrup, Donald M.; Calhoun, Grace V.; Callanan, Paul; Abe, Lyu; Bendjoya, Philippe; Rivet, Jean-Pierre; Vernet, David; Devogele, Maxime; Shappee, Benjamin; Holoien, Thomas; Heras, Teofilo Arranz (2016-12-10). "Return of the King: Time-Series Photometry of FO Aquarii's Initial Recovery from its Unprecedented 2016 Low State". The Astrophysical Journal. 833 (1): 93. arXiv: 1609.01026 . Bibcode:2016ApJ...833...93L. doi: 10.3847/1538-4357/833/1/93 . ISSN   0004-637X.
  23. Hambsch, Franz-Josef (Aug 15, 2016). "Amateurs help discover pulsing white dwarf". Sky & Telescope. Retrieved Jun 21, 2024.
  24. Beskrovnaya, N. G.; Ikhsanov, N. R. (2016-12-22), "AR Scorpii is a new white dwarf in the ejector state", Stars: From Collapse to Collapse, 510: 439, arXiv: 1612.07831 , Bibcode:2017ASPC..510..439B
  25. Stiller, Robert A.; Littlefield, Colin; Garnavich, Peter; Wood, Charlotte; Hambsch, Franz-Josef; Myers, Gordon (2018-10-01). "High-Time-Resolution Photometry of AR Scorpii: Confirmation of the White Dwarf's Spin-Down". The Astronomical Journal. 156 (4): 150. arXiv: 1802.04323 . Bibcode:2018AJ....156..150S. doi: 10.3847/1538-3881/aad5dd . ISSN   0004-6256.
  26. Kilpatrick, Alexandra (Jun 4, 2012). "The view from afar: We have a chance to see transit of Venus". South Bend Tribune. pp. A1, A2. Retrieved Jun 27, 2024.
  27. "Our Universe Revealed – Physics for Everyone". universerevealed.nd.edu. Retrieved 2024-06-24.
  28. Leichty, McKenna; Garnavich, Peter; Littlefield, Colin; Schwope, Axel D.; Kurpas, Jan; Mason, Paul A.; Beuermann, Klaus (2024-02-26), "An Eccentric Planet Orbiting the Polar V808 Aurigae", The Astrophysical Journal, 967 (2): 81, arXiv: 2402.16959 , Bibcode:2024ApJ...967...81L, doi: 10.3847/1538-4357/ad3bac
  29. "International Astronomical Union | IAU". www.iau.org. Retrieved 2024-06-24.
This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.