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Words near each other
・ PSR B0329+54
・ PSR B0943+10
・ PSR B0950+08
・ PSR B1257+12
・ PSR B1257+12 A
・ PSR B1257+12 B
・ PSR B1257+12 C
・ PSR B1259-63/LS 2883
・ PSR B1509-58
・ PSR B1620-26
・ PSR B1620-26 b
・ PSR B1828-11
・ PSR B1829−10
・ PSR B1913+16
・ PSR B1919+21
PSR B1937+21
・ PSR J0108-1431
・ PSR J0348+0432
・ PSR J0357+3205
・ PSR J0437-4715
・ PSR J0537-6910
・ PSR J0540-6919
・ PSR J0737-3039
・ PSR J0738-4042
・ PSR J0855-4644
・ PSR J1311–3430
・ PSR J1614–2230
・ PSR J1719-1438
・ PSR J1719-1438 b
・ PSR J1748-2446ad


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PSR B1937+21 : ウィキペディア英語版
PSR B1937+21


PSR B1937+21 is a pulsar located in the constellation Vulpecula a few degrees in the sky away from the first discovered pulsar, PSR B1919+21.〔 The name PSR B1937+21 is derived from the word "pulsar" and the declination and right ascension at which it is located, with the "B" indicating that the coordinates are for the 1950.0 epoch. PSR B1937+21 was discovered in 1982 by Don Backer, Shri Kulkarni, Carl Heiles, Michael Davis, and Miller Goss. It is the first discovered millisecond pulsar, with a rotational period of 1.557708 milliseconds, meaning it completes almost 642 rotations per second. This period was far shorter than astronomers considered pulsars capable of reaching, and led to the suggestion that pulsars can be spun-up by accreting mass from a companion.
The rotation of PSR B1937+21, along with other millisecond pulsars discovered later, are very stable in their rotation. They are capable of keeping time as well as atomic clocks. PSR B1937+21 is unusual in that it is one of few pulsars which occasionally emits particularly strong pulses. The flux density of the giant pulses emitted by PSR B1927+21 are the brightest radio emission ever observed. These properties of PSR B1937+21, and its unexpected discovery, are credited with helping revitalize research on pulsars.
==Background==
(詳細はpulsar was discovered in 1967 by Jocelyn Bell and her PhD supervisor Antony Hewish using the Interplanetary Scintillation Array. Shortly after the discovery of pulsars, Franco Pacini and Thomas Gold independently suggested that pulsars are highly magnetized rotating neutron stars, which form as a result of a supernova at the end of the life stars more massive than about 10 times the mass of the Sun. The radiation emitted by pulsars is caused by interaction of the plasma surrounding the neutron star with its rapidly rotating magnetic field. This interaction leads to emission "in the pattern of a rotating beacon," as emission escapes along the magnetic poles of the neutron star.〔 The "rotating beacon" property of pulsars arises from the misalignment of their magnetic poles with their rotational poles.

抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)
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