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pulsar

pulsar, in astronomy, a neutron star that emits brief, sharp pulses of energy instead of the steady radiation associated with other natural sources. The study of pulsars began when Antony Hewish and his students at Cambridge built a primitive radio telescope to study a scintillation effect on radio sources caused by clouds of electrons in the solar wind. Because this telescope was specially designed to record rapid variations in signals, in 1967 it readily recorded a signal from a totally unexpected source. Jocelyn Bell Burnell noticed a strong scintillation effect opposite the sun, where the effect should have been weak. After an improved recorder was installed, the signals were received again as a series of sharp pulses with intervals of about a second. By the end of 1968 it was clear that the team had discovered a rapidly spinning neutron star, a remnant of a supernova.

In 1974 the first binary pulsar—two stars, at least one of which is a neutron star, that orbit each other—was discovered by Russell A. Hulse and Joseph H. Taylor, for which they shared the 1993 Nobel Prize in Physics. Using this binary system, they observed indirect evidence of gravitational waves and also tested the general theory of relativity. Several dozen binary pulsars are now known. In 1995 the orbiting Compton Gamma Ray Observatory detected the first object that bursts and pulses at the same time. This bursting pulsar, another class of pulsars, is currently the strongest source of X rays and gamma rays in the sky. Fewer than a dozen bursting pulsars are known to exist.

The intense magnetic field and plasma that are believed to surround a neutron star provide an effective source of radio waves. The high-energy electrons of the plasma spiral around the magnetic field and emit radio waves and other forms of electromagnetic radiation. This synchrotron radiation is highly directional, like a flashlight beam. If the neutron star is rotating, it will act like a revolving beacon and produce the observed pulses. The pulses recur at precise intervals, but successive pulses differ considerably in strength. Since 1968 more than 700 pulsars have been observed, with pulse rates from 4 seconds to 1.5 milliseconds; the very rapid ones are called millisecond pulsars. The interval between pulses decreases ever so slightly with the passage of time, and it is believed that the slower pulsers are the older stars while the rapid pulsers are the younger. Pulsars in the Crab Nebula and at the site of the Vela supernova can be detected optically as well as at X-ray and gamma-ray frequencies.

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pulsar

pulsar Object emitting radio waves in pulses of great regularity. English radio astronomer Jocelyn Bell first noticed pulsars in 1967. Pulsars are believed to be rapidly rotating neutron stars. A beam of radio waves emitted by the rotating pulsar sweeps past the Earth, and is received in the form of pulses. Pulsars are gradually slowing down, but some, such as the Vela Pulsar, occasionally increase their spin rate abruptly; such an event is called a glitch. More than 500 pulsars are now known, flashing at rates from c.4 seconds to 1 millisecond.

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pulsar

pul·sar / ˈpəlˌsär/ • n. Astron. a celestial object, thought to be a rapidly rotating neutron star, that emits regular pulses of radio waves and other electromagnetic radiation at rates of up to one thousand pulses per second.

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pulsar

pulsar •ahimsa • paisa • pulsar

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Pulsar

Pulsar

Developments through 1995

Developments from 1995 to 2006

Contributions to science

Resources

A pulsar is a celestial object that emits radiation pulses (bursts) of very short (one to a few milliseconds, or thousandths of a second) duration at very regular intervals from a fraction of a second to ten seconds.

The first pulsar was discovered in 1967 by British astrophysicist Jocelyn Bell Burnell (1943) and British radio astronomer Antony Hewish (1924) at Cambridge, England, with radio telescopes equipped to study the twinkling (scintillation) of radio stars. They soon discovered a radio source producing short (0.016 sec) radio pulses separated by a constant 1.3373 second interval. The pulses were so regular that an artificial terrestrial source was suspected for them, but careful, extended radio observations showed that their source rose and set about four minutes earlier each day, which demonstrated that the source was a celestial object (radio star). It received the designation CP (Cambridge Pulsar) 1919. Three more pulsars were found soon after this discovery. Their regular patterns caused some scientists to speculate that the pulsars were part of a beacon system installed by an advanced extraterrestrial civilization to aid interstellar travel.

Other scientists suggested several other more plausible hypotheses about the nature of pulsars. Among them was Austrian astrophysicist Thomas Golds (19202004) hypothesis that pulsars were produced by neutron stars. Neutron stars had never been observed, but their possible existence had been suggested by American physicist J. Robert Oppenheimer (19041967) and George M. Volkoff in 1939 as a final remnant of a supernova explosion, where a massive star explodes and ejects most or nearly all of its mass. If the stars final remnant has a mass less than 1.4 solar masses, then a white dwarf star usually will result.

However, if the remnants mass is more than 1.4 solar masses, its gravity will cause the remnant to collapse beyond the white dwarf stage, forcing free electrons into atomic nuclei and forcing them to combine with protons to form neutrons. The collapse is finally stopped by the rigidity of nuclear matter; here about 1.5 solar masses is squeezed into a body with about a 6.2 mi (10 km) radius.

Support for Golds neutron star model for pulsars came in 1968 when a very fast pulsar (which emits pulses every 0.33 second) was discovered in the Crab Nebula, the gaseous ejecta from a supernova observed by Chinese scientists in 1054. Subsequent observations showed that this pulsar emits pulses at wavelengths from gamma rays through visible light to radio waves. Golds model has the neutron star rotating very fast, with its rotation period equal to the interval between pulses; only a neutron star could withstand such rapid rotation without disruption. Pulses are thought to be produced by radiation beamed towards the solar system from charged particles moving in a strongly compressed magnetic field near the pulsar.

Developments through 1995

Additional support for the neutron star model came in 1987 at the start of the observed outburst of Supernova 1987 in the Large Megellanic Cloud, when bursts of neutrinos were detected simultaneously at two widely separated underground observatories (in Japan and Ohio, United States). The theory of supernovae predicts that most of the gravitational energy released during the collapse of a supernova remnant to form a neutron star will be converted to neutrinos. The observed supernova bursts support this theory.

Extremely fast pulsars, which emit pulses at intervals from one to several milliseconds, were discovered in the 1980s. Several of them were found to be members of binary star systems with very short periods of revolution.

This has led to speculation that millisecond pulsars are formed by the merging of a neutron star and another star in a binary system, where the transfer of mass and angular momentum onto the neutron star spins it up. The distances to most pulsars are uncertain. The nearest estimated distance for a pulsar, is about 280 light-years. All other pulsars seem to be considerably more distant. The Crab Nebula pulsar and the 17 pulsars that have been found in 11 globular clusters have somewhat more reliable distance estimates, but there are thousands and even tens of thousands of light-years from the solar system.

Developments from 1995 to 2006

Over one thousands pulsars are now known. More than 500 pulsars have been discovered in the Milky Way galaxy. In addition, many pulsars have been found in nearby galaxies such as the Magellanic Clouds.

As of 2005, dozens of pulsars found in globular clusters have been found to be members of binary systems. Estimates of pulsar (neutron star) masses from their orbits so far indicate masses from 1.3 to 1.6 solar masses for neutron stars. Pulsars in very close binary systems are being studied in an effort to detect relativistic effects in their strong gravitational fields, which can be used to check the predictions of the general theory of relativity. The discovery of binary pulsars has increased efforts to detect the gravitational waves predicted by this theory. Finally, the three most reliably established extrasolar planets have been discovered orbiting the pulsar-neutron star PSR 1257+12. This occurred in 2002, when PSR B1257+12 was found about 980 light-years from Earth. It rotates about 161 times per second, but its pulses are not evenly spaced. Observations made with the giant Arecibo radio telescope showed that some pulses arrive slightly too soon, others just a bit too late. This means something is tugging the pulsar back and forth slightly. Careful measurements showed that the planets orbiting the pulsar are responsible for its irregular pulses.

On November 10, 2004, American astronomer Jason W.T. Hessels discovered pulsar PSR J1748-2446ad. Its discovery was confirmed on January 8, 2005. It is the fastest known spinning pulsarat 716 Hz, with a period of 0.013959482 seconds. In 2003, PSR J0737-3039 was discovered as a binary pulsar system. It became the first known double pulsar. The largest burst of energy in the galaxy every recorded was done on December 27, 2004 when magnetar SGR 1806-20 was observed about 14.5 kiloparsecs (50,000 light-years) from Earth in the constellation Sagittarius. (A magnetar is a new type of neutron star that has a magnetic field, which is about one hundred times greater than a typical neutron star. They were first discovered in the late 1990s. Magnetars have magnetic fields that are trillions of times larger than the magnetic field surrounding Earth.)

Contributions to science

Since their discovery in 1967, pulsars have contributed greatly to fields of astronomy, cosmology, and astrophysics as diverse as stellar structure and evolution, the theory of relativity, and extrasolar planets. Pulsar research continues.

Resources

BOOKS

Bacon, Dennis Henry, and Percy Seymour. A Mechanical History of the Universe. London: Philip Wilson Publishing, Ltd., 2003.

Baykal, Altan, et al., eds. The Electromagnetic Spectrum of Neutron Stars. Dordrecht, Netherlands: Springer, 2005.

Blaschke, D., et al., eds. Physics of Neutron Star Interiors. Berlin, Germany, and New York: Springer, 2001.

Hansen, Carl J. Steller Interiors: Physical Principles, Structure, and Evolution. Berlin, Germany, and New York: Springer, 2004.

OTHER

Nemiroff, Robert, Michigan Technological University. Virtual Trips to Black Holes and Neutron Stars. <http://antwrp.gsfc.nasa.gov/htmltest/rjn_bht.html> (accessed accessed October 20, 2006).

The Search for Extraterrestrial Intelligence (SETI) Project (2006). http://setiathome.ssl.berkeley.edu (accessed October 23, 2006).

Frederick R. West

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Pulsar

Pulsar

A pulsar is a celestial object that emits radiation pulses (bursts) of very short (one to a few milliseconds, or thousandths of a second) duration at very regular intervals from a fraction of a second to ten seconds.

The first pulsar was discovered in 1967 by Jocelyn Bell and Antony Hewish at Cambridge, England, with radio telescopes equipped to study the twinkling (scintillation) of radio stars. They soon discovered a radio source producing short (0.016 sec) radio pulses separated by a constant 1.3373 second interval. The pulses were so regular that an artificial terrestrial source was suspected for them, but careful, extended radio observations showed that their source rose and set about four minutes earlier each day, which demonstrated that the source was a celestial object (radio star ). It received the designation CP (Cambridge Pulsar) 1919. Three more pulsars were found soon after this discovery. Their regular patterns caused some scientists to speculate that the pulsars were part of a beacon system installed by an advanced extraterrestrial civilization to aid interstellar travel.

Other scientists suggested several other more plausible hypotheses about the nature of pulsars. Among them was Thomas Gold's hypothesis that pulsars were produced by neutron stars. Neutron stars had never been observed, but their possible existence had been suggested by J. Robert Oppenheimer and George M. Volkoff in 1939 as a final remnant of a supernova explosion, where a massive star explodes and ejects most or nearly all of its mass . If the star's final remnant has a mass less than 1.4 solar masses, then a white dwarf star usually will result. However, if the remnant's mass is more than 1.4 solar masses, its gravity will cause the remnant to collapse beyond the white dwarf stage, forcing free electrons into atomic nuclei and forcing them to combine with protons to form neutrons. The collapse is finally stopped by the rigidity of nuclear matter; here about 1.5 solar masses is squeezed into a body with about a 6.2 mi (10 km) radius.

Support for Gold's neutron star model for pulsars came in 1968 when a very fast pulsar (which emits pulses every 0.33 second) was discovered in the Crab Nebula, the gaseous ejecta from a supernova observed by the Chinese in 1054. Subsequent observations showed that this pulsar emits pulses at wavelengths from gamma rays through visible light to radio waves . Gold's model has the neutron star rotating very fast, with its rotation period equal to the interval between pulses; only a neutron star could withstand such rapid rotation without disruption. Pulses are thought to be produced by radiation beamed towards the solar system from charged particles moving in a strongly compressed magnetic field near the pulsar.


Developments through 1995

About 1,000 pulsars are now known. Almost all are within the Milky Way , but several pulsars have been found in the Magellanic Clouds, the nearest external galaxies.

Additional support for the neutron star model came in 1987 at the start of the observed outburst of Supernova 1987 in the Large Megellanic Cloud, when bursts of neutrinos were detected simultaneously at two widely separated underground observatories (in Japan and Ohio, USA). The theory of supernovae predicts that most of the gravitational energy released during the collapse of a supernova remnant to form a neutron star will be converted to neutrinos. The observed supernova bursts support this theory. The search for a pulsar ar the position of Supernova 1987 continues.

Extremely fast pulsars, which emit pulses at intervals from one to several milliseconds, were discovered in the 1980s. Several of them were found to be members of binary star systems with very short periods of revolution.

This has led to speculation that millisecond pulsars are formed by the merging of a neutron star and another star in a binary system, where the transfer of mass and angular momentum onto the neutron star" spins it up." The distances to most pulsars are uncertain. The nearest estimated distance for a pulsar, is about 280 light-years. All other pulsars seem to be considerably more distant. The Crab Nebula pulsar and the 17 pulsars that have been found in 11 globular clusters have somewhat more reliable distance estimates, but there are thousands and even tens of thousands of light-years from the solar system.

Eight of the 17 pulsars found in globular clusters are members of binary systems. Thirteen pulsars are now known to be members of binary systems. Estimates of pulsar (neutron star) masses from their orbits so far indicate masses from 1.3 to 1.6 solar masses for neutron stars. Pulsars in very close binary systems are being studied in an effort to detect relativistic effects in their strong gravitational fields, which can be used to check the predictions of the general theory of relativity. The discovery of binary pulsars has increased efforts to detect the gravitational waves predicted by this theory. Finally, the three most reliably established extrasolar planets have been discovered orbiting the pulsar-neutron star PSR 1257+12.


Summary

Since their discovery in 1967, pulsars have contributed greatly to fields of astronomy and astrophysics as diverse as stellar structure and evolution , the theory of relativity, and extra-solar planets. Pulsar research continues.


Resources

books

Bacon, Dennis Henry, and Percy Seymour. A Mechanical History of the Universe. London: Philip Wilson Publishing, Ltd., 2003.

Morrison, David, and Sidney C. Wolff. Frontiers of Astronomy. Philadelphia: Saunders College Publishing, 1990.

other

The Search for Extraterrestrial Intelligence (SETI) Project [cited 2003]. <http://setiathome.ssl.berkeley.edu>.


Frederick R. West

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