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We present the results from timing observations with the GMRT of the young pulsar J1833-1034, in the galactic supernova remnant G21.5-0.9. We detect the presence of 4 glitches in this pulsar over a period of 5.5 years, making it one of a…

Solar and Stellar Astrophysics · Physics 2015-06-05 Jayanta Roy , Yashwant Gupta , Wojciech Lewandowski

It is shown that the slow glitches in the spin rate of the pulsar B1822-09 can be explained by the reconstruction of the neutron star shape, which is not matched with the star rotation axis. Owing to the evolution of the inclination angle,…

Astrophysics · Physics 2007-05-23 Y. N. Istomin , T. V. Shabanova

We report the detection of a large glitch in the pulsar B0919+06 (J0922+0638). The glitch occurred in 2009 November 5 (MJD 55140) and was characterized by a fractional increase in the rotation frequency of Deltanu/nu=1.3x10^{-6}. A large…

Solar and Stellar Astrophysics · Physics 2015-05-19 Tatiana V. Shabanova

Young pulsars deviate from a perfectly regular spin-down by two non-deterministic phenomena: impulsive glitches and timing noise. Both phenomena are interesting per se, and may provide insights into the superfluid properties of neutron…

High Energy Astrophysical Phenomena · Physics 2023-02-17 Marco Antonelli , Avishek Basu , Brynmor Haskell

Many pulsars exhibit a peculiar behaviour in their pulse profile of a sudden increase in their rotational period, which is popularly known as a pulsar glitch. Some of them show giant glitches with relative amplitude $\Delta\Omega/\Omega…

High Energy Astrophysical Phenomena · Physics 2026-05-05 Yogeesh N. , Anil Kumar , Monika Sinha

Neutron stars or pulsars are very rapidly rotating compact stars with extremely high density. One of the unsolved long-standing problems of these enigmatic celestial bodies is the origin of pulsars' glitches, i.e., the sudden rapid…

High Energy Astrophysical Phenomena · Physics 2020-10-20 Giacomo Marmorini , Shigehiro Yasui , Muneto Nitta

The rotation of more than 700 pulsars has been monitored using the 76-m Lovell Telescope at Jodrell Bank. Here we report on a new search for glitches in the observations, revealing 128 new glitches in the rotation of 63 pulsars. Combining…

High Energy Astrophysical Phenomena · Physics 2015-03-18 Cristobal M. Espinoza , Andrew G. Lyne , Ben W. Stappers , Michael Kramer

Spinning neutron stars, when observed as pulsars, are seen to undergo occasional spin-up events known as glitches. Despite several decades of study, the physical mechanisms responsible for glitches are still not well understood, but…

High Energy Astrophysical Phenomena · Physics 2024-01-09 Brynmor Haskell , David Ian Jones

Radio pulsars provide us with some of the most stable clocks in the universe. Nevertheless several pulsars exhibit sudden spin-up events, known as glitches. More than forty years after their first discovery, the exact origin of these…

Solar and Stellar Astrophysics · Physics 2015-02-26 Brynmor Haskell , Andrew Melatos

The single glitch observed in PSR B1821-24, a millisecond pulsar in M28, is unusual on two counts. First, the magnitude of this glitch is at least an order of magnitude smaller ($\Delta \nu / \nu \sim 10^{-11}$) than the smallest glitch…

Solar and Stellar Astrophysics · Physics 2015-05-13 Raka Dona Ray Mandal , Sushan Konar , Mira Dey , Jishnu Dey

Pulsars are highly magnetized rotating neutron stars with a very stable rotation speed. Irrespective of their stable rotation rate, many pulsars have been observed with the sudden jump in the rotation rate, which is known as pulsar glitch.…

High Energy Astrophysical Phenomena · Physics 2018-10-24 Avishek Basu , Prasanta Char , Rana Nandi , Bhal Chandra Joshi , Debades Bandyopadhyay

The physical mechanisms responsible for pulsar timing glitches are thought to excite quasi-normal mode oscillations in their parent neutron star that couple to gravitational wave emission. In August 2006, a timing glitch was observed in the…

General Relativity and Quantum Cosmology · Physics 2011-05-12 The LIGO Scientific Collaboration , J. Abadie , B. P. Abbott , R. Abbott , R. Adhikari , P. Ajith , B. Allen , G. Allen , E. Amador Ceron , R. S. Amin , S. B. Anderson , W. G. Anderson , M. A. Arain , M. Araya , Y. Aso , S. Aston , P. Aufmuth , C. Aulbert , S. Babak , P. Baker , S. Ballmer , D. Barker , B. Barr , P. Barriga , L. Barsotti , M. A. Barton , I. Bartos , R. Bassiri , M. Bastarrika , B. Behnke , M. Benacquista , M. F. Bennett , J. Betzwieser , P. T. Beyersdorf , I. A. Bilenko , G. Billingsley , R. Biswas , E. Black , J. K. Blackburn , L. Blackburn , D. Blair , B. Bland , O. Bock , T. P. Bodiya , R. Bondarescu , R. Bork , M. Born , S. Bose , P. R. Brady , V. B. Braginsky , J. E. Brau , J. Breyer , D. O. Bridges , M. Brinkmann , M. Britzger , A. F. Brooks , D. A. Brown , S. Buchner , A. Bullington , A. Buonanno , O. Burmeister , R. L. Byer , L. Cadonati , J. Cain , J. B. Camp , J. Cannizzo , K. C. Cannon , J. Cao , C. Capano , L. Cardenas , S. Caudill , M. Cavaglià , C. Cepeda , T. Chalermsongsak , E. Chalkley , P. Charlton , S. Chatterji , S. Chelkowski , Y. Chen , N. Christensen , S. S. Y. Chua , C. T. Y. Chung , D. Clark , J. Clark , J. H. Clayton , R. Conte , D. Cook , T. R. C. Corbitt , N. Cornish , D. Coward , D. C. Coyne , J. D. E. Creighton , T. D. Creighton , A. M. Cruise , R. M. Culter , A. Cumming , L. Cunningham , K. Dahl , S. L. Danilishin , K. Danzmann , B. Daudert , G. Davies , E. J. Daw , T. Dayanga , D. DeBra , J. Degallaix , V. Dergachev , R. DeSalvo , S. Dhurandhar , M. Díaz , F. Donovan , K. L. Dooley , E. E. Doomes , R. W. P. Drever , J. Driggers , J. Dueck , I. Duke , J. -C. Dumas , M. Edgar , M. Edwards , A. Effler , P. Ehrens , T. Etzel , M. Evans , T. Evans , S. Fairhurst , Y. Faltas , Y. Fan , D. Fazi , H. Fehrmann , L. S. Finn , K. Flasch , S. Foley , C. Forrest , N. Fotopoulos , M. Frede , M. Frei , Z. Frei , A. Freise , R. Frey , T. T. Fricke , D. Friedrich , P. Fritschel , V. V. Frolov , P. Fulda , M. Fyffe , J. A. Garofoli , S. Ghosh , J. A. Giaime , S. Giampanis , K. D. Giardina , E. Goetz , L. M. Goggin , G. González , S. Goßler , A. Grant , S. Gras , C. Gray , R. J. S. Greenhalgh , A. M. Gretarsson , R. Grosso , H. Grote , S. Grunewald , E. K. Gustafson , R. Gustafson , B. Hage , J. M. Hallam , D. Hammer , G. D. Hammond , C. Hanna , J. Hanson , J. Harms , G. M. Harry , I. W. Harry , E. D. Harstad , K. Haughian , K. Hayama , T. Hayler , J. Heefner , I. S. Heng , A. Heptonstall , M. Hewitson , S. Hild , E. Hirose , D. Hoak , K. A. Hodge , K. Holt , D. J. Hosken , J. Hough , E. Howell , D. Hoyland , B. Hughey , S. Husa , S. H. Huttner , D. R. Ingram , T. Isogai , A. Ivanov , W. W. Johnson , D. I. Jones , G. Jones , R. Jones , L. Ju , P. Kalmus , V. Kalogera , S. Kandhasamy , J. Kanner , E. Katsavounidis , K. Kawabe , S. Kawamura , F. Kawazoe , W. Kells , D. G. Keppel , A. Khalaidovski , F. Y. Khalili , R. Khan , E. Khazanov , H. Kim , P. J. King , J. S. Kissel , S. Klimenko , K. Kokeyama , V. Kondrashov , R. Kopparapu , S. Koranda , D. Kozak , V. Kringel , B. Krishnan , G. Kuehn , J. Kullman , R. Kumar , P. Kwee , P. K. Lam , M. Landry , M. Lang , B. Lantz , N. Lastzka , A. Lazzarini , P. Leaci , M. Lei , N. Leindecker , I. Leonor , H. Lin , P. E. Lindquist , T. B. Littenberg , N. A. Lockerbie , D. Lodhia , M. Lormand , P. Lu , M. Lubinski , A. Lucianetti , H. Lück , A. Lundgren , B. Machenschalk , M. MacInnis , M. Mageswaran , K. Mailand , C. Mak , I. Mandel , V. Mandic , S. Márka , Z. Márka , A. Markosyan , J. Markowitz , E. Maros , I. W. Martin , R. M. Martin , J. N. Marx , K. Mason , F. Matichard , L. Matone , R. A. Matzner , N. Mavalvala , R. McCarthy , D. E. McClelland , S. C. McGuire , G. McIntyre , D. J. A. McKechan , M. Mehmet , A. Melatos , A. C. Melissinos , G. Mendell , D. F. Menéndez , R. A. Mercer , L. Merrill , S. Meshkov , C. Messenger , M. S. Meyer , H. Miao , J. Miller , Y. Mino , S. Mitra , V. P. Mitrofanov , G. Mitselmakher , R. Mittleman , O. Miyakawa , B. Moe , S. D. Mohanty , S. R. P. Mohapatra , G. Moreno , K. Mors , K. Mossavi , C. MowLowry , G. Mueller , H. Müller-Ebhardt , S. Mukherjee , A. Mullavey , J. Munch , P. G. Murray , T. Nash , R. Nawrodt , J. Nelson , G. Newton , E. Nishida , A. Nishizawa , J. O'Dell , B. O'Reilly , R. O'Shaughnessy , E. Ochsner , G. H. Ogin , R. Oldenburg , D. J. Ottaway , R. S. Ottens , H. Overmier , B. J. Owen , A. Page , Y. Pan , C. Pankow , M. A. Papa , P. Patel , D. Pathak , M. Pedraza , L. Pekowsky , S. Penn , C. Peralta , A. Perreca , M. Pickenpack , I. M. Pinto , M. Pitkin , H. J. Pletsch , M. V. Plissi , F. Postiglione , M. Principe , R. Prix , L. Prokhorov , O. Puncken , V. Quetschke , F. J. Raab , D. S. Rabeling , H. Radkins , P. Raffai , Z. Raics , M. Rakhmanov , V. Raymond , C. M. Reed , T. Reed , H. Rehbein , S. Reid , D. H. Reitze , R. Riesen , K. Riles , P. Roberts , N. A. Robertson , C. Robinson , E. L. Robinson , S. Roddy , C. Röver , J. Rollins , J. D. Romano , J. H. Romie , S. Rowan , A. Rüdiger , K. Ryan , S. Sakata , L. Sammut , L. Sancho de la Jordana , V. Sandberg , V. Sannibale , L. Santamaría , G. Santostasi , S. Saraf , P. Sarin , B. S. Sathyaprakash , S. Sato , M. Satterthwaite , P. R. Saulson , R. Savage , R. Schilling , R. Schnabel , R. Schofield , B. Schulz , B. F. Schutz , P. Schwinberg , J. Scott , S. M. Scott , A. C. Searle , F. Seifert , D. Sellers , A. S. Sengupta , A. Sergeev , B. Shapiro , P. Shawhan , D. H. Shoemaker , A. Sibley , X. Siemens , D. Sigg , A. M. Sintes , G. Skelton , B. J. J. Slagmolen , J. Slutsky , J. R. Smith , M. R. Smith , N. D. Smith , K. Somiya , B. Sorazu , F. Speirits , A. J. Stein , L. C. Stein , S. Steplewski , A. Stochino , R. Stone , K. A. Strain , S. Strigin , A. Stroeer , A. L. Stuver , T. Z. Summerscales , M. Sung , S. Susmithan , P. J. Sutton , G. P. Szokoly , D. Talukder , D. B. Tanner , S. P. Tarabrin , J. R. Taylor , R. Taylor , K. A. Thorne , K. S. Thorne , A. Thüring , C. Titsler , K. V. Tokmakov , C. Torres , C. I. Torrie , G. Traylor , M. Trias , L. Turner , D. Ugolini , K. Urbanek , H. Vahlbruch , M. Vallisneri , C. Van Den Broeck , M. V. van der Sluys , A. A. van Veggel , S. Vass , R. Vaulin , A. Vecchio , J. Veitch , P. J. Veitch , C. Veltkamp , A. Villar , C. Vorvick , S. P. Vyachanin , S. J. Waldman , L. Wallace , A. Wanner , R. L. Ward , P. Wei , M. Weinert , A. J. Weinstein , R. Weiss , L. Wen , S. Wen , P. Wessels , M. West , T. Westphal , K. Wette , J. T. Whelan , S. E. Whitcomb , B. F. Whiting , C. Wilkinson , P. A. Willems , H. R. Williams , L. Williams , B. Willke , I. Wilmut , L. Winkelmann , W. Winkler , C. C. Wipf , A. G. Wiseman , G. Woan , R. Wooley , J. Worden , I. Yakushin , H. Yamamoto , K. Yamamoto , D. Yeaton-Massey , S. Yoshida , M. Zanolin , L. Zhang , Z. Zhang , C. Zhao , N. Zotov , M. E. Zucker , J. Zweizig

The neutron star crust is rigid material floating on a neutron-proton liquid core. As the star's spin rate slows, the changing stellar shape stresses the crust and causes fractures. These starquakes may trigger pulsar glitches as well as…

Astrophysics · Physics 2016-01-27 Richard I. Epstein , Bennett Link

Six glitches have been recently observed in the rotational frequency of the young pulsar PSR B1737-30 (J1740-3015) using the 25-m Nanshan telescope of Urumqi Observatory. With a total of 20 glitches in 20 years, it is one of the most…

Astrophysics · Physics 2009-11-13 W. Z. Zou , N. Wang , R. N. Manchester , J. O. Urama , G. Hobbs , Z. Y. Liu , J. P. Yuan

We conducted a timing analysis of PSR J0922+0638 (B0919+06) using data from the Nanshan 26 m radio telescope and the MeerKAT telescope, spanning from January 2001 to March 2023. During this 22-year period, we discovered a previously…

High Energy Astrophysical Phenomena · Physics 2025-07-31 Peng Liu , Mingyang Wang , Jianping Yuan , Zhonghao Tu , Ang Li , Xia Zhou , Na Wang

Context. Pulsars have a very stable rotation. However, sudden increases in their rotation frequency known as glitches, perturb their evolution. While large glitches are commonly detected, small glitches are harder to detect because of the…

High Energy Astrophysical Phenomena · Physics 2024-06-26 E. Zubieta , F. Garcia , S. del Palacio , S. B. Araujo Furlan , G. Gancio , C. O. Lousto , J. A. Combi , C. M. Espinoza

A quake model of bare strange stars for normal pulsar glitches is summarized. Three mechanisms being responsible for developing elastic stress energy are presented. It is suggested that other kinds of glitches (e.g, the frequency glitch in…

Astrophysics · Physics 2007-05-23 R. X. Xu , A. Z. Zhou

Glitches are sudden spin-up events that interrupt the gradual spin-down of rotating neutron stars. They are believed to arise from the rapid unpinning of vortices in the neutron star inner crust. The analogy between the inner crust of…

Quantum Gases · Physics 2024-08-20 Thomas Bland , Francesca Ferlaino , Massimo Mannarelli , Elena Poli , Silvia Trabucco

Timing observations from the Nanshan 26-m radio telescope for nine pulsars between 2000 and 2014 have been used to search for glitches. The data span for nine pulsars ranges from 11.6 to 14.2 years. From the total of 114 yr of pulsar…

High Energy Physics - Phenomenology · Physics 2022-08-17 Zu-Rong Zhou , Jing-Bo Wang , Na Wang , Jian-Ping Yuan , Fei-Fei Kou , Shi-Jun Dang

Context. A small number of pulsar glitches have been identified as anti-glitches or spin-down glitches, where the overall contribution to the pulsar's rotation frequency is negative. A notable example of a spin-down glitch was observed in…

High Energy Astrophysical Phenomena · Physics 2025-06-03 A. G. Panin , E. V. Sokolova