Lovell Telescope

Lovell Telescope

Infobox Telescope
name = Lovell Telescope


caption = The 76 m Lovell Telescope
organization = Jodrell Bank Observatory
location = Cheshire, UK
coords = coord|53|14|13.2|N|2|18|25.74|W|display=inline,title
altitude =
wavelength = Up to ~5 GHz
weather =
built = 1952–1957
first_light = 2 August 1957Lovell, "Story of Jodrell Bank", p. 158, plus the image at the bottom of p177a]
website = [http://www.jodrellbank.manchester.ac.uk/ www.jodrellbank.manchester.ac.uk]
style = Prime focus paraboloid
diameter = 250 ft, 76.2 mcite web | url=http://www.jb.man.ac.uk/tech/lovell/facts.html | title=Jodrell Bank Observatory — Facts and Figures | accessdate=2007-05-28]
area = 5270 m²
focal_length = 22.9 m
angular_resolution =
mounting = Alt-azimuth
The Lovell Telescope is a radio telescope at Jodrell Bank Observatory, near Goostrey, Cheshire in the north-west of England. When it was constructed in the mid 1950s, the telescope was the largest steerable dish radio telescope in the world at 76.2 m (250 ft) in diameter; [cite web | url=http://news.bbc.co.uk/onthisday/hi/dates/stories/march/14/newsid_2566000/2566961.stm | title=On This Day - 14 March 1960: Radio telescope makes space history | publisher=BBC News | accessdate=2007-05-11] it is now the third largest, after the Green Bank and Effelsberg telescopes.cite web | url=http://www.spaceref.com/news/viewpr.html?pid=9732 | title=The Lovell Telescope presents a new face to the Universe | accessdate=2007-05-11] It was originally known as the 250 ft telescope or the Radio Telescope at Jodrell Bank, before becoming the Mark I telescope around 1961 when future telescopes (the Mark II, III and IV) were being discussed.Lovell, "The Jodrell Bank Telescopes"] It was renamed to the "Lovell Telescope" in 1987 after Bernard Lovell,cite news | url=http://news.bbc.co.uk/1/hi/sci/tech/2981167.stm | title=Lovell Radio Telescope refurbished | publisher=BBC News | date=28 April 2003 | accessdate=2007-04-05] and became a Grade I listed building in 1988.cite web | url=http://www.culture.gov.uk/Reference_library/Press_notices/archive_2003/dcms37_2003.htm | title=Once Wilson's "White Heat", Now History: Tessa Blackstone Lists Bt Tower | accessdate=2007-05-28] cite web | url=http://www.imagesofengland.org.uk/search/details.aspx?pid=1&id=413530 | title=Images of England | publisher=English Heritage | accessdate=2007-07-17] The telescope forms part of the MERLIN and European VLBI Network arrays of radio telescopes.

Both Bernard Lovell and Charles Husband were knighted for their roles in creating the telescope.cite web | url=http://www.jb.man.ac.uk/booklet/History.html | title=Jodrell Bank — History | accessdate=2007-06-10] In September 2006, the telescope won the BBC's online competition to find the UK's greatest 'Unsung Landmark'.cite news | url = http://news.bbc.co.uk/2/hi/uk_news/magazine/5314172.stm | title = Aye to the telescope| author=Finlo Rohrer | publisher = BBC News | date = 5 September 2006] 2007 marks the 50th anniversary of the telescope.

If the air is clear enough, the Mark I telescope can be seen from high-rise buildings such as the Beetham Tower in Manchester and from as far away as the Pennines, Winter Hill, Snowdonia, Beeston Castle, and the Peak District. It can also be seen from the terminal 1 restaurant area and departure lounges of Manchester Airport.

Construction

Conception and construction of the Mark I

Bernard Lovell built the Transit Telescope at Jodrell Bank in the late 1940s. This was a 218 ft-diameter radio telescope that could only point directly upwards; the next logical step was to build a telescope that could look at all parts of the sky so that more sources could be observed, as well as for longer integration times. Although the Transit Telescope had been designed and constructed by the astronomers that used it, a fully-steerable telescope would need to be professionally designed and constructed; the first challenge was to find an engineer willing to do the job. This turned out to be Charles Husband, whom Lovell first met on 8 September 1949.Lovell, "Story of Jodrell Bank", p. 28] Lovell, "Astronomer by Chance", p. 195]

Two 15-inch gun turret bearings were purchased cheaply in 1950; these came from the World War II battleships "HMS Revenge" and "Royal Sovereign", which were being broken up at the time. The bearings became the two main altitude rotator bearings of the telescope, with the appropriate parts of the telescope being designed around them.Lovell, "Story of Jodrell Bank", p. 29] Husband presented the first drawings of the proposed giant, fully-steerable radio telescope in 1950. After refinements, these plans were detailed in a "Blue Book",cite book | first=Bernard | last=Lovell | authorlink=Bernard Lovell | title=Blue Book | year=1950 | url=http://www.jb.man.ac.uk/public/archive/BlueBook/ (the proposal document for the Lovell Telescope)] which was presented to the DSIR on 20 March 1951;Lovell, "Story of Jodrell Bank", p. 35] the proposal was approved in March 1952.Lovell, "Astronomer by Chance", p. 222]

Construction began on 3 September 1952.Lovell, "Story of Jodrell Bank", p. 44] The foundations for the telescope were completed on 21 May 1953 after being sunk 90 ft into the ground.Lovell, "Story of Jodrell Bank", p. 47] Lovell, "Astronomer by Chance", p. 225] it then took until Mid-March 1954 to get the double railway lines completed due to their required accuracy.Lovell, "Story of Jodrell Bank", p. 65a (caption of lower photograph)] Lovell, "Astronomer by Chance", p. 232] The central pivot was delivered to the site on 11 May 1954,Lovell, "Story of Jodrell Bank", p. 80a (caption of upper photograph)] and the final bogie in mid-April 1955.Lovell, "Story of Jodrell Bank", p. 71]

The telescope bowl was originally going to have a wire mesh surface to observe at wavelengths between 1 and 10 meters;cite web | url=http://www.jb.man.ac.uk/tech/lovell/build.html | title=JBO — Construction | accessdate=2007-05-28] this was changed to a steel surface so that the telescope could observe at the 21 cm hydrogen line, which was discovered in 1951.cite web | url=http://www.jb.man.ac.uk/public/story/mk1.html | title=The 250 ft Mk I Radio Telescope — The building of the world's first giant radio telescope. | publisher=Jodrell Bank Observatory | accessdate=2006-11-23] Also, in February 1954 Lovell and the Air Ministry met to see if funding could be made available for improving the accuracy of the dish so that it could be used on centimeter wavelengths, for research at these wavelengths for the Ministry as well as "other purposes". Although the funding was not ultimately made available from the Air Ministry, the planning process had already progressed too far and so this improvement was made anyway.Lovell, "Astronomer by Chance", pp. 235-236]

The telescope was constructed so that the bowl could be completely inverted. Originally, it was intended to use a movable tower at the base of the telescope to change the receivers at the focus.Lovell, "Story of Jodrell Bank", p88] However, the movable tower was never built, due jointly to funding constraints and the fact that much of the receiver equipment was placed at the base of the telescope rather than at the focus.Story of Jodrell Bank, p88] Instead, receivers were mounted on 50ft long steel tubes, which were then inserted by a winch into the top of the aerial tower while the bowl was inverted. The cables from the receivers then ran down the inside of this tube, which could then be connected when the telescope was pointed at the zenith. Associated receiver equipment could then be placed either in the small, swinging laboratory directly underneath the surface; in rooms at the tops of the two towers; at the base girders, or in the control building.Lovell (1957)]

The telescope moved for the first time on 3 February 1957: by an inch!Lovell, "Story of Jodrell Bank", p. 155] It was first moved azimuthally under power on 12 June 1957;Lovell, "Story of Jodrell Bank", p. 157] the bowl was tilted under power for the first time on 20 June 1957.Lovell, "Story of Jodrell Bank", p. 157] By the end of July the dish surface was completed,Lovell, "Astronomer by Chance", p. 250] and first light was on 2 August 1957; the telescope did a drift scan across the Milky Way at 160 MHz, with the bowl at the zenith.Lovell, "Story of Jodrell Bank", p. 158, plus the image at the bottom of p177a] The telescope was first controlled from the control room on 9 October 1957,Lovell, "Story of Jodrell Bank", p. 193] Lovell, "Astronomer by Chance", p. 260] by a purpose-built analogue computer.

There were large cost overruns with the telescope's construction, mainly due to the steeply rising cost of steel at the time the telescope was constructed. The original grant for the telescope's construction came jointly from the Nuffield Foundation and the government; this amounted to £335,000.Lovell, "Astronomer by Chance", p. 222] The government increased its share of the funding several times as the cost of the telescope rose; other money came from private donations. The final part of the debt from the construction of the telescope, £50,000, was paid off by Lord Nuffield and the Nuffield Foundation on 25 May 1960 [Story of Jodrell Bank, p. 244] (partly due to the telescope's early, very public role in space probe tracking; see below), and Jodrell Bank observatory was renamed to the Nuffield Radio Astronomy Laboratories. The final total cost for the telescope was £700,000.Piper, "Story of Jodrell Bank", p. 95]

Upgrade to Mark IA

Shortly after the telescope was originally completed, Lovell and Husband started contemplating the idea of upgrading the telescope so that it had a more accurate surface, and was controlled by a digital computer. Plans for this upgrade were created by Husband and Co., and were presented to Lovell in April 1964.Lovell, "Jodrell Bank Telescopes", pp. 60–61] Their plans became more urgent when fatigue cracks were discovered in the elevation drive system in September 1967. The telescope was only expected to have an operational lifespan of 10 years, and Husband had been warning about the decay of the telescope since 1963. The appearance of fatigue cracks was the first of these problems that threatened to stop the telescope working; had they been left in place, then the elevation system could have failed and perhaps jammed.Lovell, "Jodrell Bank Telescopes", pp. 65-66] The telescope was therefore repaired and upgraded to become the Mark IA; the £400,000 of funding to do this was announced on 8 July 1968 by the SRC to upgrade and repair the telescope to the Mark IA.Lovell, "Jodrell Bank Telescopes", p. 68] Out of the Zenith, p. 237]

The upgrade was carried out in three phases, phase 1 lasting between September 1968 and February 1969,Lovell, "Jodrell Bank Telescopes", pp. 75-81] phase 2 between September and November 1969Lovell, "Jodrell Bank Telescopes", pp. 81-83] and phase 3 between August 1970 and November 1971.Lovell, "Jodrell Bank Telescopes", pp. 83-94]

The first phase saw the addition of an inner railway track, which was designed to take 1/3 of the weight of the telescope.cite web | title=The MKIA Radio Telescope | url=http://www.jb.man.ac.uk/public/story/mk1a.html | publisher=Jodrell Bank Observatory | accessdate=2006-11-21] The outer railway track, which had been decaying and sinking over the previous years, was relaid in the second phase. Also, four bogies were added on the inner track, along with their steelwork, and the existing bogies on the outer track were overhauled.

The third phase saw the biggest changes; a new, more accurate bowl surface was constructed in front of the old surface, meaning that the telescope could be used on wavelengths as small as 6 cm,cite web | url=http://www.jb.man.ac.uk/tech/lovell/build.html | title=JBO — Construction | accessdate=2007-05-28] and the central "bicycle wheel" support was added. A new computer control system was also put in place (reusing the Ferranti Argus 104 computer from the Mark II); fatigue cracks in the cones connecting the bowl to the towers were repaired and the central antenna was lengthened and strengthened. Tragically, in January 1972 the hoist holding two engineers to the central antenna snapped, causing grave injuries to both engineers and resulting in the death of one of them.Lovell, "Jodrell Bank Telescopes", p. 91]

The Mark IA upgrade was formally completed on 16 July 1974, when the telescope was handed back to the University. Due to increases in the cost of steel during the upgrade, the final amount for the upgrade was £664,793.07.Lovell, "Jodrell Bank Telescopes", p. 94]

Later upgrades and repairs

On 2 January 1976, storms brought winds of around 90 mph (140 km/h) which almost destroyed the telescope. The towers bowed, and one of the bearings connecting the dish to the towers slipped. After an expensive repair, diagonal bracing girders were added to the towers to prevent this happening again.

By the 1990s, the telescope surface was becoming badly corroded. In 2001-2003, the telescope was resurfaced, increasing its sensitivity at 5 GHz by a factor of five. A holographic profiling technique was used on the surface, meaning that the surface works optimally at wavelengths of 5 cm (compared to 18 cm on the old surface).cite web | url=http://www.jb.man.ac.uk/tech/lovell/future.html | title=JBO — Lovell Telescope — the future (in 2000) | accessdate=2007-05-28] A new drive system was installed, which provides a much higher pointing accuracy. The outer track was also relaid, and the focal tower was strengthened so that it could support heavier receivers.cite web | url=http://www.jb.man.ac.uk/public/story/Lovell.html | title=The Lovell Telescope Upgrade | publisher=Jodrell Bank Observatory | accessdate=2006-11-23]

In 2007 the telescope required a new wheel as the old one had cracked; in 2008 another new tyre was needed after a second wheel cracked. These are the only two wheel changes required since the telescope started operation in 1957.cite web | url=http://www.jb.man.ac.uk/news/wheelchange/ | title=Telescope's Tyre Change is Wheel Success | publisher=Jodrell Bank Observatory | date=4 February 2008 | accessdate=2008-02-07]

Statistics

Space probe tracking

Sputnik and artificial satellites

The telescope became operational in the summer of 1957, just in time for the launch of Sputnik 1, the world's first artificial satellite. While the transmissions from Sputnik itself could easily be picked up by a household radio, the Lovell Telescope was the only telescope capable of tracking Sputnik's booster rocket by radar; it first located it just before midnight on 12 October 1957.Lovell, "Story of Jodrell Bank", p. 196] Lovell, "Astronomer by Chance", p. 262] It also located Sputnik 2's carrier rocket at just after midnight on 16 November 1957.Lovell, "Story of Jodrell Bank", p. 197]

The telescope also took part in some of the early work on satellite. In February and March 1963, the telescope transmitted signals via the moon and Echo II, a NASA balloon satellite at 750km altitude, to the Zimenki Observatory in the USSR. Some signals were also relayed from the USA to the USSR via Jodrell Bank.Out of the Zenith, chapter 15]

The race to the Moon

The Lovell Telescope was used to track both Soviet and American probes aimed at the Moon in the late 1950s and early 1960s.

In terms of American space probes, the telescope tracked Pioneer 1 on 11-13 November 1958,Lovell, "Story of Jodrell Bank", p. 212] Lovell, "Astronomer by Chance", p. 269] Pioneer 3 in December 1958.cite web | url=http://www.jb.man.ac.uk/public/story/tracking/ | title=Jodrell Bank's role in early space tracking activities | accessdate=2007-06-10] and Pioneer 4 in March 1959cite news | url=http://www.time.com/time/magazine/article/0,9171,937005,00.html | title=U.S. Planet | publisher=Time Magazine | date=16 March 1959 | accessdate=2007-04-09] The telescope tracked Pioneer 5 between 11 March and 26 June 1960, and was also used to send commands to the probe, including the one to separate the probe from its carrier rocket and the ones to turn on the more powerful transmitter when the probe was 8 million miles away. It also received data from Pioneer 5, and was the only telescope in the world capable of doing so at the time. [Lovell, "Story of Jodrell Bank", p. xii, pp. 239-244
Lovell, "Astronomer by Chance", p. 272
cite news | url=http://www.time.com/time/magazine/article/0,9171,894817,00.html | title=Voice in Space | publisher=Time Magazine | date=21 March 1960 | accessdate=2007-04-09
cite news | url=http://www.time.com/time/magazine/article/0,9171,827621,00.html | title=Big Voice from Space | publisher=Time Magazine | date=23 May 1960 | accessdate=2007-04-09
] The last signal was picked up from the probe at a distance of 36.2 million kilometers on the 26 June 1960.

The telescope also tracked the Soviet moon probes, including Lunik II on 13-14 September 1959 as it hit the moon; this was proven by the telescope by measuring the effect of the moon's gravity on the probe. [Lovell, "Story of Jodrell Bank", pp. 231-236 and caption on bottom photo of page 209a
Piper, "Story of Jodrell Bank", p. 42
Lovell, "Astronomer by Chance", pp. 269-271
cite news | url=http://www.time.com/time/magazine/article/0,9171,869244,00.html | title=Moon Blow | publisher=Time Magazine | date=21 September 1959 | accessdate=2007-04-09
cite news | url=http://www.time.com/time/magazine/article/0,9171,811308,00.html | title=Trail of the Lunik | publisher=Time Magazine | date=28 September 1959 | accessdate=2007-04-09
] , and Luna 3 around 4 October 1959. [Lovell, "Story of Jodrell Bank", pp. 236-238
Lovell, "Astronomer by Chance", p. 271
cite news | url=http://www.time.com/time/magazine/article/0,9171,864046,00.html | title=Lunik III | publisher=Time Magazine | date=12 October 1959
cite news | url=http://www.time.com/time/magazine/article/0,9171,869300,00.html | title=First to the Far Side | publisher=Time Magazine | date=19 October 1959 | accessdate=2007-04-08
] . Also, the telescope tracked Luna 9 in February 1966, the first spacecraft to make a soft landing on the Moon. The telescope listened in on its facsimile transmission of photographs from the moon's surface. The photos were sent to the British press and published before the Soviets themselves had made the photos public. [Lovell, "Story of Jodrell Bank", p. 250
cite news | url=http://news.bbc.co.uk/onthisday/hi/dates/stories/february/3/newsid_4063000/4063471.stm | title=On This Day - 3 February 1966: Soviets land probe on Moon | publisher=BBC News | accessdate=2007-04-09
cite news | url=http://www.time.com/time/magazine/article/0,9171,842468,00.html | title=The Lunar Landscape | publisher=Time Magazine | date=11 February 1966 | accessdate=2007-04-07
]

The telescope tracked Luna 10, a Russian satellite put into orbit around the Moon, in April 1966,cite news | url=http://www.time.com/time/magazine/article/0,9171,835362,00.html | title=Bringing Credit to Jodrell Bank | publisher=Time Magazine | date=15 April 1966 | accessdate=2007-04-06] and Zond 5 in September 1968, a Russian probe that was launched at the moon, around which it sling-shotted before returning to Earth.cite news | url=http://www.time.com/time/magazine/article/0,9171,902336,00.html | title=Russia's Race to the Moon | publisher=Time Magazine | date=27 September 1968 | accessdate=2007-04-09] The telescope did not track Apollo 11, as it was tracking Luna 15 in July 1969. However, a 50 ft telescope at Jodrell Bank was used at the same time to track Apollo 11.cite web | url=http://www.time.com/time/magazine/article/0,9171,901106,00.html | title=SCOOPY, SNOOPY OR SOUR GRAPES? | publisher=Time Magazine | date=25 July 1969 | accessdate=2007-04-09] Lovell, "Jodrell Bank Telescopes", p. 82]

Venus probes

The telescope possibly detected signals from Venera 1, a Russian satellite en route to Venus, in 19-20 May 1961. However, it was not possible to confirm the origin of the signals.Piper, "Story of Jodrell Bank", pp. 43-44] A few years later, in December 1962, the telescope tracked and received data from Mariner 2. [Piper, "Story of Jodrell Bank", p. 44
cite news | url=http://www.time.com/time/magazine/article/0,9171,940164,00.html | title=Venus Probed | publisher=Time Magazine | date=21 December 1962 | accessdate=2007-04-09
] On 18 October 1967, the telescope received signals from, and tracked, Venera 4, a Russian probe to Venus.cite news | url=http://news.bbc.co.uk/onthisday/hi/dates/stories/october/18/newsid_4082000/4082373.stm | title=On This Day - 18 October 1967: Soviets glimpse beneath clouds of Venus | publisher=BBC News | accessdate=2007-05-09]

Mars probes

The telescope tracked Mars 1 in 1962-3, and Mars 2 and Mars 3 in 1971 (amidst the upgrade of the telescope to the Mark IA)Lovell, "Jodrell Bank Telescopes", p. 88] In more recent years, it has also searched for several lost Mars spacecraft, including NASA's Mars Observer spacecraft in 1993,cite news | url = http://news.bbc.co.uk/2/hi/uk_news/magazine/5314172.stm | title = Aye to the telescope| author=Finlo Rohrer | publisher = BBC News | date = 5 September 2006]
Mars Polar Lander in 2000 [cite news | url=http://news.bbc.co.uk/1/hi/sci/tech/626952.stm | title=Earth turns its ears to Mars | publisher=BBC News | date=2 October 2000 | accessdate=2007-04-09
cite news | url=http://news.bbc.co.uk/1/hi/sci/tech/629443.stm | title=Quiet please, we're listening to Mars | publisher=BBC News | date=3 February 2000 | accessdate=2007-04-05
cite news | url=http://news.bbc.co.uk/1/hi/sci/tech/635229.stm | title=Mars lander search goes on | publisher=BBC News | date=8 February 2000 | accessdate=2007-04-05
] and the Beagle 2 lander on Mars in 2003. However, it did not succeed in locating any of them.

ICBM watchdog

As a stopgap measure while RAF Fylingdales was being constructed, the telescope was on standby for "Project Verify" (also known by the codewords "Lothario" and "Changlin") between April 1962 and September 1963. During strategic alerts, a 'pulse transmitter, receiver and display equipment' could be connected to the telescope to scan known Russian launch sites for indications of launches of ICBMs and/or IRBMs.Lovell, "Astronomer by Chance", p. 322] Spinardi, 2006]

During the Cuban Missile Crisis in October 1962, the telescope was discretely turned towards the Iron Curtain to provide a few minute's warning of any missiles that might have been launched then.cite news | url=http://www.bbc.co.uk/radio4/science/dishoftheday.shtml | title=Dish of the Day | publisher=BBC Radio 4 | date=13 June 2003 | accessdate=2007-04-09]

Scientific observations

When the telescope was proposed, a series of objectives for the telescope's observations were set out. These included:
* Surveys of galactic and extragalactic radio emission
* Observations of the sun
* Radar echoes from the planets
* Investigation of meteor detections
* Observations of the Gegenschein
* Studies of the Aurora
* Detections of radio reflections from cosmic ray ionization in the atmosphere

However, the actual observations made with the telescope differ from these original objectives, and are outlined in the following sections.

Solar system

In Autumn 1958, the telescope was used to bounce "Hellos" off the Moon for a demonstration in Lovell's third Reith Lecture.Out of the Zenith, p212] The telescope was also used to receive messages bounced off the Moon (a "moonbounce") as part of the 50th anniversary First Move festival.cite web | url=http://www.jb.man.ac.uk/public/im/eme.html | title=EME to the Lovell Telescope | first=Ian | last=Morrison | date=17 June 2007 | accessdate=2007-06-21]

In April 1961, a radar echo from Venus was achieved using the telescope while the planet was at a close approach, confirming measurements of the distance of the planet made by American telescopes.Lovell, "Out of the Zenith", pp. 197-198] Lovell, "Astronomer by Chance", pp. 277-280]

21cm Hydrogen line

The 21cm Hydrogen line was discovered during the telescope's construction; the telescope was subsequently redesigned so that it could observe at that frequency. Using this line emission, hydrogen clouds both in our galaxy and in other galaxies can be observed; for example, the telescope discovered a large cloud around the M81 and M82 galaxies. The motion of these clouds either towards or away from us either redshifts or blueshifts the line, allowing the velocity to the cloud to be measured. This provides a probe of the internal dynamics of galaxies, and can also provide a measurement of the rate of expansion of the universe. cite web | url=http://www.jb.man.ac.uk/tech/lovell/aungas.html | title=JBO — Gas | publisher=Jodrell Bank Observatory | accessdate=2007-06-01]

Masers

In 1963, the telescope discovered OH emissions from star-forming regions and giant stars; the first astronomical masers.cite web | url=http://www.jb.man.ac.uk/tech/lovell/mile.html | title=JBO — Milestones | accessdate=2007-05-28] OH masers emit on four frequencies around 18cm, which are easily observable on the telescope. As part of MERLIN, the telescope is regularly used to construct maps of maser regions.

Pulsars

In 1968, the telescope observed the coordinates of the recently-discovered pulsar, confirming its existence and investigating the dispersion measure.Lovell, "Out of the Zenith", pp. 130-135] It was also used to make the first detection of polarization of the pulsar's radiation.cite news | url=http://www.time.com/time/magazine/article/0,9171,838333,00.html | title=Taking the Pulse of Pulsars | publisher=Time Magazine | date=26 April 1968 | accessdate=2007-04-09] This marked the start of a substantial amount of work investigating pulsars at Jodrell, which is still ongoing.Lovell, "Astronomer by Chance", pp. 293-297] In the 30 years following the discovery of pulsars, the telescope discovered over 100 new pulsars (and astronomers at Jodrell Bank discovered around 2/3 of the total number using the Lovell and other telescopes). 300 pulsars are regularly observed using either the Lovell, or a nearby 42ft dish.

The telescope was involved in the discovery of millisecond pulsars,cite web | url=http://www.jb.man.ac.uk/tech/lovell/aunstar.html | title=JBO — Stars | publisher=Jodrell Bank Observatory | accessdate=2007-06-01] and also discovered the first pulsar in a globular cluster in 1986—a millisecond pulsar in the Messier 28 globular cluster. In September 2006, the results of three years of observing a double pulsar, PSR J0737-3039, with the Lovell telescope, as well as with the Parkes and Green Bank Telescopes, were announced — confirming that the general theory of relativity is accurate to 99.5%. [cite web | url=http://www.jb.man.ac.uk/news/einstein/ | title=General Relativity survives gruelling pulsar test — Einstein at least 99.95% right! | publisher=Jodrell Bank Observatory | accessdate=2007-06-10]

Gravitational lensing

Between 1972 and 1973, the telescope was used for "a detailed survey of the radio sources in a limited area of the sky … up to the sensitivity limit of the instrument". Among the objects catalogued was the first gravitational lens, which was confirmed optically in 1979Lovell, "Astronomer by Chance", pp. 297-301] after its position was found to coincide with a pair of faint blue stars by using the Mark I as and interferometer with the Mark II.cite web | url=http://www.jb.man.ac.uk/tech/lovell/aungxi.html | title=JBO — Galaxies | publisher=Jodrell Bank Observatory | accessdate=2007-06-01]

The telescope was also involved in the detection of the first Einstein ring in 1998, in conjunction with observations made with the Hubble Space Telescope. [cite news | url=http://news.bbc.co.uk/1/hi/sci/tech/71518.stm | title=Astronomers see cosmic mirage | publisher=BBC News | date=1 April 1998 | accessdate=2007-04-09]

Quasars and Interferometry

The early investigation into the size and nature of quasars drove the development of interferometry techniques in the 1950s; the Lovell telescope had an advantage due to its large collecting area, meaning that high sensitivity interferometer measurements can be made relatively quickly using it. As a result, the telescope featured heavily in the discovery of quasars.

Interferometry at Jodrell Bank started before the Lovell telescope was constructed, using the Transit Telescope with a 35 square meter broadside array to determine the size of radio-loud nebulae.Out of the Zenith, pp. 19-20] Once construction of the Lovell telescope was complete, the broadside array was put on a steerable mount and the pair were used as a tracking radio interferometer. This was then used to determine the 2D shape of quasars on the sky.Out of the Zenith, pp. 42-45.
Rowson (1963)] In the summer of 1961, a 25ft diameter parabaloid telescope was constructed (it was made of aluminium tubing and was mounted on the rotating structure of an old defence radar). This was then used as a steerable interferometer with the Mark I, with a resolution of 0.3 arcseconds, to determine the sizes of some high-redshift (z~0.86) quasars.Out of the Zenith, pp. 46-48]

The Mark II telescope once constructed was also used as an interferometer with the Lovell telescope.Lovell, "The Jodrell Bank Telescopes"] This has a baseline of 425m (meaning that it can synthesize a telescope with 425m diameter), giving it a resolution of around 0.5 arcminutes. This telescope pair has been used to carry out survey work, and to determine the positions of faint radio objects.cite web | url=http://www.jb.man.ac.uk/tech/lovell/interfer.html | title=Interferometers | publisher=Jodrell Bank Observatory | accessdate=2007-06-01] Also, one of the drivers behind the construction of the Mark III was to use it as an interferometer with the Mark I to carry out a survey of radio sources.Out of the Zenith, pp. 73-77]

The telescope took part in the first transatlantic interferometer experiment in 1968, with other telescopes being those at Algonquin and Penticton in Canada.Lovell, "Out of the Zenith", pp. 67-68] It was first used as an interferometer with the Arecibo radio telescope in 1969.cite web | url=http://www.jb.man.ac.uk/tech/lovell/mile.html | title=JBO — Milestones | accessdate=2007-05-28]

In 1980, it was used as part of the new MERLIN array with a series of smaller radio telescopes controlled from Jodrell Bank. With baselines of up to 217km, this gave a resolution around 0.05 arcminutes. An upgraded version of this became a national facility in 1992. It has also been used in Very Long Baseline Interferometry, with telescopes across Europe (the European VLBI Network), giving a resolution of around 0.001 arcseconds. Around half of the telescope's observing time is now spent doing interferometry with other telescopes.

It is planned that the telescope will work as part of an interferometer with the Radioastron (Russian) and VLBI Space Observatory Programme (Japanese) orbital radio satellites, providing yet larger baselines and higher resolutions.

Other notable observations

The telescope was used as a follow-up instrument for possible SETI detections made at Arecibo between 1998 and the end of 2003.cite news | url=http://news.bbc.co.uk/1/hi/sci/tech/52489.stm | title=Scientists listen intently for ET | publisher=BBC News | date=1 February 1998 | accessdate=2007-04-09] cite news | url=http://news.bbc.co.uk/1/hi/sci/tech/300916.stm | title=Alien hunters back on track | publisher=BBC News | date=23 March 1999 | accessdate=2007-04-09] No signals were detected.cite news | url=http://news.bbc.co.uk/1/hi/sci/tech/3567729.stm | title=Radio search for ET draws a blank | publisher=BBC News | date=25 March 2004 | accessdate=2007-04-09]

In February 2005, astronomers using the Lovell Telescope discovered the galaxy VIRGOHI21 that appears to be made almost entirely of dark matter.cite web | url=http://www.jb.man.ac.uk/news/darkgalaxy/ | title=Seeing the invisible — first dark galaxy discovered? | publisher=Jodrell Bank Observatory press release | date=23 February 2005 | accessdate=2007-05-29]

Popular culture

* In 1962, the telescope was mentioned in a sci-fi novel "A for Andromeda", by Fred Hoyle and John Elliot.
* Two bands have shot music videos in the bowl of the telescope, in 1995 (Party Up the World) and Placebo in 2003 (The Bitter End).
* The telescope made a brief appearance in the film version of "The Hitchhiker's Guide to the Galaxy" in 2005.cite web | url=http://www.jb.man.ac.uk/news/h2g2/ | title=Scientists bid to save the Earth in latest Hollywood blockbuster | publisher=Jodrell Bank Observatory press release | accessdate=2007-05-29]

Notes and references

Books

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Journal articles

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External links

* [http://www.jb.man.ac.uk/tech/lovell/ The Lovell Telescope website]
* [http://www.gresham.ac.uk/event.asp?PageId=45&EventId=669 '50 Years of the Lovell Telescope'] , lecture by Professor Ian Morison given at Gresham College, 5 December 2007 (available for free audio, video and text download).


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