PSR J1640+2224 , the SIMBAD biblio

PSR J1640+2224 , the SIMBAD biblio (177 results)

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Bibcode/DOI	Score	in Title\|Abstract\| Keywords	in a table	in teXt, Caption, ...	Nb occurence	Nb objects in ref	Citations (from ADS)	Title	First 3 Authors
`1993BAAS...25.1346F`	`71`	`T`				`3`	`~`	A high latitude millisecond pulsar survey between 13h and 18h right ascension using the Arecibo telescope.	FOSTER R.S. and WOLSZCZAN A.
`1995ApJ...454..826F`						`26`	`43`	A high galactic latitude pulsar survey of the Arecibo sky.	FOSTER R.S., CADWELL B.J., WOLSZCZAN A., et al.
`1995MNRAS.273..731R`	`1`					`33`	`214`	The relation between white dwarf mass and orbital period in wide binary radio pulsars.	RAPPAPORT S., PODSIADLOWSKI P., JOSS P.C., et al.
`1995BAAS...27..877L`						`4`	`~`	Optical observations of binary millisecond pulsar companions.	LUNDGREN S.C., et al.
`1995BAAS...27.1310L`						`5`	`~`	Studies of binary pulsar evolution through Hubble Space Telescope imaging of white dwarf companions.	LUNDGREN S.C., FOSTER R.S. and CAMILO F.
`1995JApA...16..233M`						`68`	`2`	The population of binary and millisecond pulsars.	MANCHESTER R.N.
`1996A&A...315..453T`						`34`	`35`	Aspects of mass transfer in X-ray binaries: a model for three classes of binary millisecond pulsars.	TAURIS T.M.
`1996AJ....112.1472R`	`2`					`7`	`62`	Starcounts redivivus. II. Deep starcounts with Keck and HST and the luminosity function of the Galactic Halo.	REID I.N., YAN L., MAJEWSKI S., et al.
`1996ApJ...458L..33L`	`1`					`8`	`45`	Optical studies of millisecond pulsar companions.	LUNDGREN S.C., CORDES J.M., FOSTER R.S., et al.
`1996MNRAS.283L..63B`						`7`	`17`	The age of PSR J1012+5307.	BURDERI L., KING A.R. and WYNN G.A.
`1997A&A...317..976W`						`9`	`16`	New limits on the violation of the strong equivalence principle in strong field regimes.	WEX N.
`1997A&A...318L..63K`						`9`	`20`	Observations of millisecond pulsars at 4.85GHz.	KIJAK J., KRAMER M., WIELEBINSKI R., et al.
`1997ApJ...482..971C`	`2`					`22`	`150`	Neutron star population dynamics. I. Millisecond pulsars.	CORDES J.M. and CHERNOFF D.F.
`1998A&A...334L..17T`						`10`	`2`	PSR J2019+2425: a unique testing ground for binary evolution.	TAURIS T.M.
`1998ApJ...493..873B`						`26`	`16`	The neutron star-helium white dwarf population in the Galactic disk.	BACKER D.C.
`1998ApJ...501..270K`	`2`					`36`	`251`	The characteristics of millisecond pulsar emission. I. Spectra, pulse shapes, and the beaming fraction.	KRAMER M., XILOURIS K.M., LORIMER D.R., et al.
`1998ApJ...501..286X`						`23`	`62`	The characteristics of millisecond pulsar emission. II. Polarimetry.	XILOURIS K.M., KRAMER M., JESSNER A., et al.
`1998MNRAS.294..569H`	`1`					`12`	`64`	Stellar forensics. II. Millisecond pulsar binaries.	HANSEN B.M.S. and PHINNEY E.S.
`1998MNRAS.300.1127B`						`7`	`8`	PSR J1012+5307: younger than it looks?	BURDERI L., KING A.R. and WYNN G.A.
`1999A&A...350..928T`	`3`					`30`	`309`	Formation of millisecond pulsars. I. Evolution of low-mass X-ray binaries with P_orb> 2 days.	TAURIS T.M. and SAVONIJE G.J.
`1999ApJ...512..288T`	`4`					`48`	`607`	Neutron star mass measurements. I. Radio pulsars.	THORSETT S.E. and CHAKRABARTY D.
`1999ApJ...526..957K`	`1`					`23`	`116`	The characteristics of millisecond pulsar emission. III. From low to high frequencies.	KRAMER M., LANGE C., LORIMER D.R., et al.
`1999ApJ...527...31B`	`1`					`9`	`32`	Deep imaging of AX J2019+112: the luminosity of a ``Dark cluster''.	BENITEZ N., BROADHURST T., ROSATI P., et al.
`2000A&A...356..929S`						`14`	`24`	The evolution of helium white dwarfs. III. On the ages of millisecond pulsar systems.	SCHOENBERNER D., DRIEBE T. and BLOECKER T.
`2000ApJ...528..907W`	`1`					`11`	`43`	Timing observations of four millisecond pulsars with the Arecibo and Effelsberg radio telescopes.	WOLSZCZAN A., DOROSHENKO O., KONACKI M., et al.
`2000ApJ...541..329T`						`43`	`37`	On a theoretical interpretation of the period gap in binary millisecond pulsars.	TAAM R.E., KING A.R. and RITTER H.
`2000ARep...44..436M`						`245`	`20`	Flux densities of 235 pulsars at 102.5 MHz.	MALOFEEV V.M., MALOV O.I. and SHCHEGOLEVA N.V.
`2001A&A...368..230K`						`32`	`32`	No low-frequency turn-over in the spectra of millisecond pulsars.	KUZMIN A.D. and LOSOVSKY B.Y.
`2001ARep...45..138M`						`38`	`1`	Synchrotron spectra of short-period pulsars.	MALOV I.F.
`2002ApJ...581..495B`	`37`	`K`				`7`	`16`	Interstellar scintillation velocities of the relativistic binary PSR B1534+12 and three other millisecond pulsars.	BOGDANOV S., PRUSZYNSKA M., LEWANDOWSKI W., et al.
`2002MNRAS.337.1004W`						`34`	`36`	Population synthesis of wide binary millisecond pulsars.	WILLEMS B. and KOLB U.
`2002ChJAA...2..146L`						`19`	`0`	Pulsars in FIRST observations.	LI X.-H. and HAN J.-L.
`2002ARep...46..451K`						`542`	`2`	A comparative analysis of the integrated radio luminosities of normal and millisecond pulsars.	KUZ'MIN A.D.
`2003AstL...29..241P`						`2`	`5`	Timing results for the binary millisecond pulsar J1640+2224 obtained on the RT-64 radio telescope in Kalyazin.	POTAPOV V.A., ILYASOV Y.P., ORESHKO V.V., et al.
`2003AstL...29..502M`						`156`	`7`	On the mechanism of X-ray emission from radio pulsars.	MALOV I.F.
`2004A&A...426..631L`				`O`		`12`	`17`	The parallax, mass and age of the PSR J2145-0750 binary system.	LOEHMER O., KRAMER M., DRIEBE T., et al.
`2004AJ....128..842L`						`13`	`10`	Mid- and far-infrared infrared space observatory limits on dust disks around millisecond pulsars.	LAZIO T.J.W. and FISCHER J.
`2004A&ARv..12..239S`						`39`	`9`	Morphology and characteristics of radio pulsars.	SEIRADAKIS J.H. and WIELEBINSKI R.
`2004Sci...304..547S`	`1`					`57`	`177`	Pulsars in binary systems: probing binary stellar evolution and general relativity.	STAIRS I.H.
`2005ApJ...621..388L`	`111`	`T K`				`8`	`18`	Shapiro delay in the PSR J1640+2224 binary system.	LOHMER O., LEWANDOWSKI W., WOLSZCZAN A., et al.
`2005ApJ...625..291F`	`1`					`15`	`54`	Rotochemical heating in millisecond pulsars: formalism and nonsuperfluid case.	FERNANDEZ R. and REISENEGGER A.
`2005ApJ...632.1060S`						`22`	`44`	Discovery of three wide-orbit binary pulsars: implications for binary evolution and equivalence principles.	STAIRS I.H., FAULKNER A.J., LYNE A.G., et al.
`2005MNRAS.360..974H`	`1`					`246`	`1046`	A statistical study of 233 pulsar proper motions.	HOBBS G., LORIMER D.R., LYNE A.G., et al.
`2006ApJ...642.1012L`						`29`	`35`	The parallax and proper motion of PSR J0030+0451.	LOMMEN A.N., KIPPHORN R.A., NICE D.J., et al.
`2007PhR...442....5B`						`53`	`16`	Evolution and merging of binaries with compact objects.	BETHE H.A., BROWN G.E. and LEE C.-H.
`2007MNRAS.379..282L`	`15`		`D`		`1`	`59`	`11`	PSR J1453+1902 and the radio luminosities of solitary versus binary millisecond pulsars.	LORIMER D.R., McLAUGHLIN M.A., CHAMPION D.J., et al.
`2009ApJS..181..557H`	`53`		`D`	`X`	`2`	`109`	`12`	Polarization observations of 100 pulsars at 774 MHz by the Green Bank Telescope.	HAN J.L., DEMOREST P.B., VAN STRATEN W., et al.
`2010ARep...54..210M`	`92`		`D`	`C`	`2`	`181`	`10`	Average pulse profiles of radio pulsars at 102 and 111 MHz.	MALOV O.I. and MALOFEEV V.M.
`2010ApJ...713..671A`	`15`		`D`		`2`	`126`	`175`	Searches for gravitational waves from known pulsars with science run 5 LIGO data.	ABBOTT B.P., ABBOTT R., ACERNESE F., et al.
`2010ApJ...715..335K`	`15`		`D`		`1`	`87`	`25`	Millisecond pulsar ages: implications of binary evolution and a maximum spin limit.	KIZILTAN B. and THORSETT S.E.
`2010ApJ...718.1400F`	`15`		`D`		`1`	`31`	`48`	Detection, localization, and characterization of gravitational wave bursts in a pulsar timing array.	FINN L.S. and LOMMEN A.N.
`2011ARep...55..132R`						`6`	`2`	Detection of gravitational waves through observations of a group of pulsars.	RODIN A.E.
`2011ApJ...730...17B`	`15`		`D`		`1`	`30`	`16`	Optimizing pulsar timing arrays to maximize gravitational wave single-source detection: a first cut.	BURT B.J., LOMMEN A.N. and FINN L.S.
`2011MNRAS.414.1679E`	`15`		`D`		`1`	`641`	`395`	A study of 315 glitches in the rotation of 102 pulsars.	ESPINOZA C.M., LYNE A.G., STAPPERS B.W., et al.
`2011ApJ...742...49T`	`15`		`D`		`1`	`1634`	`69`	Variable and transient radio sources in the FIRST survey.	THYAGARAJAN N., HELFAND D.J., WHITE R.L., et al.
`2011ApJ...743..102G`	`15`		`D`		`2`	`48`	`65`	High-precision timing of five millisecond pulsars: space velocities, binary evolution, and equivalence principles.	GONZALEZ M.E., STAIRS I.H., FERDMAN R.D., et al.
`2012MNRAS.423.2642L`	`15`		`D`		`1`	`37`	`34`	The optimal schedule for pulsar timing array observations.	LEE K.J., BASSA C.G., JANSSEN G.H., et al.
`2012ApJ...756...85S`	`39`			`X`	`1`	`19`	`21`	Formation of millisecond pulsars from intermediate- and low-mass X-ray binaries.	SHAO Y. and LI X.-D.
`2012AstL...38..731Z`						`74`	`3`	A search for small-scale anisotropy of PeV cosmic rays.	ZOTOV M.Y. and KULIKOV G.V.
`2013ApJ...762...94D`	`257`	`K`	`D`	`X C`	`6`	`19`	`291`	Limits on the stochastic gravitational wave background from the north american nanohertz observatory for gravitational waves.	DEMOREST P.B., FERDMAN R.D., GONZALEZ M.E., et al.
`2013MNRAS.428.1147V`	`103`			`C`	`1`	`2`	`103`	Understanding and analysing time-correlated stochastic signals in pulsar timing.	VAN HAASTEREN R. and LEVIN Yu.
`2013MNRAS.432.1303B`	`16`		`D`		`2`	`17`	`15`	On the detectability of eccentric binary pulsars.	BAGCHI M., LORIMER D.R. and WOLFE S.
`2013ApJS..208...17A`	`17`		`D`		`1`	`207`	`759`	The second Fermi large area telescope catalog of gamma-ray pulsars.	ABDO A.A., AJELLO M., ALLAFORT A., et al.
`2014MNRAS.437.2217S`	`16`		`D`		`1`	`84`	`15`	The nature of millisecond pulsars with helium white dwarf companions.	SMEDLEY S.L., TOUT C.A., FERRARIO L., et al.
`2014MNRAS.439.2033G`	`16`		`D`		`1`	`77`	`17`	On the non-detection of γ-rays from energetic millisecond pulsars - dependence on viewing geometry.	GUILLEMOT L. and TAURIS T.M.
`2014ApJ...785..119A`	`16`		`D`		`1`	`202`	`131`	Gravitational waves from known pulsars: results from the initial detector era.	AASI J., ABADIE J., ABBOTT B.P., et al.
`2014MNRAS.440.1446V`	`592`	`A`	`D`	`S X C`	`14`	`3`	`14`	Bayesian inference for pulsar-timing models.	VIGELAND S.J. and VALLISNERI M.
`2014ApJ...788..141M`	`16`		`D`		`1`	`20`	`19`	Assessing pulsar timing array sensitivity to gravitational wave bursts with memory.	MADISON D.R., CORDES J.M. and CHATTERJEE S.
`2014ApJ...794..141A`	`199`			`X C`	`4`	`21`	`113`	Gravitational waves from individual supermassive black hole binaries in circular orbits: limits from the north american nanohertz observatory for gravitational waves.	ARZOUMANIAN Z., BRAZIER A., BURKE-SPOLAOR S., et al.
`2014ApJ...794..163C`	`55`		`D`	`X`	`2`	`18`	`3`	Optimization of NANOGrav's time allocation for maximum sensitivity to single sources.	CHRISTY B., ANELLA R., LOMMEN A., et al.
`2014ApJ...795...96W`	`157`			`C F`	`3`	`9`	`16`	A coherent method for the detection and parameter estimation of continuous gravitational wave signals using a pulsar timing array.	WANG Y., MOHANTY S.D. and JENET F.A.
`2014A&A...570A..44H`	`551`			`X C`	`13`	`25`	`14`	Six faint gamma-ray pulsars seen with the Fermi Large Area Telescope. Towards a sample blending into the background.	HOU X., SMITH D.A., GUILLEMOT L., et al.
`2015ApJ...810..150A`	`16`		`D`		`1`	`21`	`26`	NANOGrav constraints on gravitational wave bursts with memory.	ARZOUMANIAN Z., BRAZIER A., BURKE-SPOLAOR S., et al.
`2015ApJ...812...15B`	`17`		`D`		`1`	`38`	`125`	Disrupted globular clusters can explain the Galactic Center gamma-ray excess.	BRANDT T.D. and KOCSIS B.
`2015ApJ...813...65N`	`97`		`D`	`C`	`3`	`39`	`177`	The NANOGrav nine-year data set: observations, arrival time measurements, and analysis of 37 millisecond pulsars.	NANOGRAV COLLABORATION, ARZOUMANIAN Z., BRAZIER A., et al.
`2015MNRAS.453..828K`	`95`		`D`	`F`	`2`	`20`	`12`	Low-frequency spectral turn-overs in millisecond pulsars studied from imaging observations.	KUNIYOSHI M., VERBIEST J.P.W., LEE K.J., et al.
`2015MNRAS.453.2576L`	`63`			`X`	`1`	`9`	`421`	European Pulsar Timing Array limits on an isotropic stochastic gravitational-wave background.	LENTATI L., TAYLOR S.R., MINGARELLI C.M.F., et al.
`2015ApJ...815..125W`	`40`			`X`	`1`	`4`	`6`	Coherent network analysis for continuous gravitational wave signals in a pulsar timing array: pulsar phases as extrinsic parameters.	WANG Y., MOHANTY S.D. and JENET F.A.
`2016A&A...585A.128K`	`258`		`D`	`O X`	`7`	`79`	`87`	A LOFAR census of millisecond pulsars.	KONDRATIEV V.I., VERBIEST J.P.W., HESSELS J.W.T., et al.
`2016MNRAS.455.1665B`	`83`			`F`	`1`	`46`	`158`	European Pulsar Timing Array limits on continuous gravitational waves from individual supermassive slack hole binaries.	BABAK S., PETITEAU A., SESANA A., et al.
`2016ApJ...818...92M`	`16`		`D`		`6`	`63`	`36`	The NANOGrav nine-year data set: astrometric measurements of 37 millisecond pulsars.	MATTHEWS A.M., NICE D.J., FONSECA E., et al.
`2016ApJ...818..166L`	`16`		`D`		`2`	`38`	`30`	The NANOGrav nine-year data set: monitoring interstellar scattering delays.	LEVIN L., McLAUGHLIN M.A., JONES G., et al.
`2016MNRAS.456.2196B`	`16`		`D`		`1`	`62`	`40`	LEAP: the Large European Array for Pulsars.	BASSA C.G., JANSSEN G.H., KARUPPUSAMY R., et al.
`2016ApJ...819..155L`	`96`		`D`	`C`	`4`	`37`	`23`	The NANOGrav nine-year data set: noise budget for pulsar arrival times on intraday timescales.	LAM M.T., CORDES J.M., CHATTERJEE S., et al.
`2015BaltA..24..395M`	`16`		`D`		`1`	`619`	`2`	Binary star DataBase: binaries discovered in non-optical bands.	MALKOV O.Y., TESSEMA S.B. and KNIAZEV A.Y.
`2016ApJ...821...13A`	`28`		`D`		`1`	`20`	`257`	The NANOGrav nine-year data set: limits on the isotropic stochastic gravitational wave background.	ARZOUMANIAN Z., BRAZIER A., BURKE-SPOLAOR S., et al.
`2016MNRAS.457.4421C`	`96`		`D`	`F`	`4`	`42`	`31`	The noise properties of 42 millisecond pulsars from the European Pulsar Timing Array and their impact on gravitational-wave searches.	CABALLERO R.N., LEE K.J., LENTATI L., et al.
`2016MNRAS.458..868L`	`16`		`D`		`2`	`35`	`24`	Prospects for high-precision pulsar timing with the new Effelsberg PSRIX backend.	LAZARUS P., KARUPPUSAMY R., GRAIKOU E., et al.
`2016MNRAS.458.1267V`	`22`		`D`		`2`	`51`	`323`	The International Pulsar Timing Array: First data release.	VERBIEST J.P.W., LENTATI L., HOBBS G., et al.
`2016MNRAS.458.2161L`	`137`		`D`	`X`	`4`	`49`	`80`	From spin noise to systematics: stochastic processes in the first International Pulsar Timing Array data release.	LENTATI L., SHANNON R.M., COLES W.A., et al.
`2016MNRAS.458.3341D`	`341`		`D`	`S X`	`8`	`80`	`351`	High-precision timing of 42 millisecond pulsars with the European Pulsar Timing Array.	DESVIGNES G., CABALLERO R.N., LENTATI L., et al.
`2016MNRAS.461.1317Z`	`297`		`D`	`X F`	`7`	`31`	`18`	Detection and localization of continuous gravitational waves with pulsar timing arrays: the role of pulsar terms.	ZHU X.-J., WEN L., XIONG J., et al.
`2016ApJ...832..167F`	`832`		`D`	`X C`	`20`	`38`	`501`	The NANOGrav nine-year data set: mass and geometric measurements of binary millisecond pulsars.	FONSECA E., PENNUCCI T.T., ELLIS J.A., et al.
`2017ApJ...834...35L`	`57`		`D`	`X`	`2`	`37`	`23`	The NANOGrav nine-year data set: excess noise in millisecond pulsar arrival times.	LAM M.T., CORDES J.M., CHATTERJEE S., et al.
`2017ApJ...834..137L`	`16`		`D`		`1`	`75`	`11`	Timing of 29 pulsars discovered in the PALFA survey.	LYNE A.G., STAPPERS B.W., BOGDANOV S., et al.
`2017ApJ...835...29Y`	`18`		`D`		`1`	`301`	`678`	A new electron-density model for estimation of pulsar and FRB distances.	YAO J.M., MANCHESTER R.N. and WANG N.
`2017ApJ...839...12A`	`16`		`D`		`1`	`208`	`127`	First search for gravitational waves from known pulsars with Advanced LIGO.	ABBOTT B.P., ABBOTT R., ABBOTT T.D., et al.
`2017ApJ...840...94M`	`1462`	`K A`	`D`	`S X C`	`35`	`6`	`4`	Where are the r-modes? Chandra observations of millisecond pulsars.	MAHMOODIFAR S. and STROHMAYER T.
`2017ApJ...841..125J`	`220`		`D`	`X C`	`5`	`39`	`75`	The NANOGrav nine-year data set: measurement and analysis of variations in dispersion measures.	JONES M.L., McLAUGHLIN M.A., LAM M.T., et al.
`2017RAA....17...19W`	`16`		`D`		`2`	`16`	`1`	Statistical analyses for NANOGrav 5-year timing residuals.	WANG Y., CORDES J.M., JENET F.A., et al.
`2017ApJ...847...25S`	`42`			`X`	`1`	`8`	`8`	A multiwavelength study of nearby millisecond pulsar PSR J1400-1431: improved astrometry and an optical detection of its cool white dwarf companion.	SWIGGUM J.K., KAPLAN D.L., McLAUGHLIN M.A., et al.
`2018ApJS..234...11H`	`16`		`D`		`2`	`495`	`70`	Pulsar rotation measures and large-scale magnetic field reversals in the Galactic disk.	HAN J.L., MANCHESTER R.N., VAN STRATEN W., et al.
`2018ApJ...855..122V`	`1506`	`T K A`		`X C`	`35`	`24`	`4`	Reconciling optical and radio observations of the binary millisecond pulsar PSR J1640+2224.	VIGELAND S.J., DELLER A.T., KAPLAN D.L., et al.
`2018MNRAS.475...79H`	`16`		`D`		`1`	`35`	`4`	Predicting gravitational lensing by stellar remnants.	HARDING A.J., DI STEFANO R., LEPINE S., et al.
`2018ApJS..235...37A`	`478`		`D`	`X C F`	`10`	`47`	`434`	The NANOGrav 11-year data set: high-precision timing of 45 millisecond pulsars.	ARZOUMANIAN Z., BRAZIER A., BURKE-SPOLAOR S., et al.
`2018ApJ...859...47A`	`68`		`D`	`X`	`2`	`35`	`365`	The NANOGrav 11 year data set: pulsar-timing constraints on the stochastic gravitational-wave background.	ARZOUMANIAN Z., BAKER P.T., BRAZIER A., et al.
`2018MNRAS.478.2359L`	`16`		`D`		`1`	`65`	`7`	High-precision pulsar timing and spin frequency second derivatives.	LIU X.J., BASSA C.G. and STAPPERS B.W.
`2018ApJ...862...47G`	`346`		`D`	`S X`	`8`	`30`	`10`	The NANOGrav 11 yr data set: Arecibo Observatory polarimetry and pulse microcomponents.	GENTILE P.A., McLAUGHLIN M.A., DEMOREST P.B., et al.
`2018ApJ...864...23L`	`16`		`D`		`1`	`85`	`32`	X-ray census of millisecond pulsars in the galactic field.	LEE J., HUI C.Y., TAKATA J., et al.
`2018ApJ...864...30H`	`16`		`D`		`1`	`89`	`2`	On the orbital properties of millisecond pulsar binaries.	HUI C.Y., WU K., HAN Q., et al.
`2018MNRAS.479.3393W`	`263`		`D`	`X F`	`6`	`30`	`1`	The decomposition of temporal variations of pulsar dispersion measures.	WANG P.F. and HAN J.L.
`2018MNRAS.480..692P`	`16`		`D`		`1`	`20`	`3`	The minimum magnetic field of millisecond pulsars calculated according to accretion: application to the X-ray neutron star SAX J1808.4-3658 in a low-mass X-ray binary.	PAN Y.Y., ZHANG C.M., SONG L.M., et al.
`2018ApJ...868...33L`	`99`		`D`	`X`	`3`	`50`	`5`	Optimizing pulsar timing array observational cadences for sensitivity to low-frequency gravitational-wave sources.	LAM M.T.
`2018ApJ...868..122B`	`16`		`D`		`2`	`41`	`4`	The NANOGrav 11-year data set: pulse profile variability.	BROOK P.R., KARASTERGIOU A., McLAUGHLIN M.A., et al.
`2018MNRAS.481.2249C`	`222`		`D`	`X F`	`5`	`27`	`2`	Gravitational wave detection from OJ 287 via a pulsar timing array.	CHEN J.-W. and ZHANG Y.
`2018MNRAS.481.3966B`	`16`		`D`		`1`	`154`	`15`	Bayesian model comparison and analysis of the Galactic disc population of gamma-ray millisecond pulsars.	BARTELS R.T., EDWARDS T.D.P. and WENIGER C.
`2019ApJ...872...42S`	`86`			`C`	`1`	`36`	`72`	Optical spectroscopy and demographics of redback millisecond pulsar binaries.	STRADER J., SWIHART S., CHOMIUK L., et al.
`2019MNRAS.484.3646S`	`17`		`D`		`1`	`182`	`65`	Low-frequency Faraday rotation measures towards pulsars using LOFAR: probing the 3D Galactic halo magnetic field.	SOBEY C., BILOUS A.V., GRIESSMEIER J.-M., et al.
`2019ApJ...872..150M`	`17`		`D`		`2`	`46`	`7`	The NANOGrav 11 yr data set: solar wind sounding through pulsar timing.	MADISON D.R., CORDES J.M., ARZOUMANIAN Z., et al.
`2019ApJ...872..193L`	`17`		`D`		`3`	`48`	`30`	The NANOGrav 12.5 yr data set: the frequency dependence of pulse jitter in precision millisecond pulsars.	LAM M.T., McLAUGHLIN M.A., ARZOUMANIAN Z., et al.
`2019RAA....19...20H`	`17`		`D`		`1`	`38`	`~`	The role of FAST in pulsar timing arrays.	HOBBS G., DAI S., MANCHESTER R.N., et al.
`2019MNRAS.486.4275X`	`42`			`X`	`1`	`62`	`24`	Magnetic fields in the solar vicinity and in the Galactic halo.	XU J. and HAN J.L.
`2019ApJ...879...10A`	`17`		`D`		`1`	`225`	`87`	Searches for gravitational waves from known pulsars at two harmonics in 2015-2017 LIGO data.	ABBOTT B.P., ABBOTT R., ABBOTT T.D., et al.
`2019MNRAS.488.2190L`	`17`		`D`		`1`	`50`	`~`	Correlated timing noise and high-precision pulsar timing: measuring frequency second derivatives as an example.	LIU X.J., KEITH M.J., BASSA C.G., et al.
`2019ApJ...880..116A`	`211`			`X F`	`4`	`45`	`119`	The NANOGrav 11 yr data set: limits on Gravitational Waves from individual supermassive black hole binaries.	AGGARWAL K., ARZOUMANIAN Z., BAKER P.T., et al.
`2019MNRAS.490.4666P`	`103`		`D`	`F`	`4`	`65`	`195`	The International Pulsar Timing Array: second data release.	PERERA B.B.P., DECESAR M.E., DEMOREST P.B., et al.
`2020MNRAS.491.5951H`	`17`		`D`		`2`	`49`	`43`	A pulsar-based time-scale from the International Pulsar Timing Array.	HOBBS G., GUO L., CABALLERO R.N., et al.
`2020ApJ...889...38A`	`128`			`X F`	`2`	`20`	`~`	The NANOGrav 11 yr data set: limits on gravitational wave memory.	AGGARWAL K., ARZOUMANIAN Z., BAKER P.T., et al.
`2020ApJ...890..108H`	`43`			`X`	`1`	`9`	`~`	The NANOGrav 11 yr data set: evolution of gravitational-wave background statistics.	HAZBOUN J.S., SIMON J., TAYLOR S.R., et al.
`2020ApJS..247...33A`	`17`		`D`		`1`	`5180`	`880`	Fermi Large Area Telescope fourth source catalog.	ABDOLLAHI S., ACERO F., ACKERMANN M., et al.
`2020ApJ...892....4D`	`1007`	`T A`		`X C`	`22`	`9`	`22`	On the formation of PSR J1640+2224 a neutron star born massive?	DENG Z.-L., GAO Z.-F., LI X.-D., et al.
`2020ApJ...893L...8B`	`17`		`D`		`1`	`47`	`~`	The NANOGrav 11 yr data set: constraints on planetary masses around 45 millisecond pulsars.	BEHRENS E.A., RANSOM S.M., MADISON D.R., et al.
`2020MNRAS.498.2734B`	`43`			`X`	`1`	`14`	`~`	Strengthening the bounds on the r-mode amplitude with X-ray observations of millisecond pulsars.	BOZTEPE T., GOGUS E., GUVER T., et al.
`2020ApJ...905L..34A`	`86`			`X`	`1`	`15`	`657`	The NANOGrav 12.5 yr data set: search for an isotropic stochastic gravitational-wave background.	ARZOUMANIAN Z., BAKER P.T., BLUMER H., et al.
`2020A&A...644A.153D`	`102`		`D`	`F`	`3`	`40`	`21`	Dispersion measure variability for 36 millisecond pulsars at 150 MHz with LOFAR.	DONNER J.Y., VERBIEST J.P.W., TIBURZI C., et al.
`2021MNRAS.501..701Y`	`104`		`D`	`X`	`3`	`55`	`~`	Searching for gravitational-wave bursts from cosmic string cusps with the Parkes Pulsar Timing Array.	YONEMARU N., KUROYANAGI S., HOBBS G., et al.
`2021ApJS..252....4A`	`281`		`D`	`X C`	`6`	`48`	`104`	The NANOGrav 12.5 yr data set: observations and narrowband timing of 47 millisecond pulsars.	ALAM M.F., ARZOUMANIAN Z., BAKER P.T., et al.
`2021ApJS..252....5A`	`454`		`D`	`S X C`	`9`	`51`	`84`	The NANOGrav 12.5 yr data set: wideband timing of 47 millisecond pulsars.	ALAM M.F., ARZOUMANIAN Z., BAKER P.T., et al.
`2020RAA....20..184L`	`17`		`D`		`1`	`27`	`~`	Gravitational wave sensitivity curve of pulsar timing arrays affected by correlated noises.	LIU S. and TONG M.-L.
`2021A&A...647A..84T`	`44`			`X`	`1`	`50`	`19`	The impact of solar wind variability on pulsar timing.	TIBURZI C., SHAIFULLAH G.M., BASSA C.G., et al.
`2021MNRAS.505.4531M`	`104`		`D`	`F`	`2`	`44`	`~`	Fresnel models for gravitational wave effects on pulsar timing.	McGRATH C. and CREIGHTON J.
`2021MNRAS.505.5853G`	`17`		`D`		`2`	`5840`	`~`	Artificial Neural Network classification of 4FGL sources.	GERMANI S., TOSTI G., LUBRANO P., et al.
`2021ApJS..255....5A`	`17`		`D`		`1`	`977`	`~`	The CHIME pulsar project: system overview.	AMIRI M., BANDURA K.M., BOYLE P.J., et al.
`2021ApJ...915...15J`	`496`		`D`	`X C`	`11`	`5`	`~`	Evaluating low-frequency pulsar observations to monitor dispersion with the Giant Metrewave Radio Telescope.	JONES M.L., McLAUGHLIN M.A., ROY J., et al.
`2021ApJ...915...97X`	`218`			`X`	`5`	`64`	`25`	Multimessenger Pulsar Timing Array constraints on Supermassive black hole binaries traced by periodic light curves.	XIN C., MINGARELLI C.M.F. and HAZBOUN J.S.
`2021ApJ...916..100R`	`17`		`D`		`1`	`422`	`2`	Analyzing the Galactic pulsar distribution with machine learning.	RONCHI M., GRABER V., GARCIA-GARCIA A., et al.
`2021ApJ...917...10T`	`17`		`D`		`4`	`51`	`12`	The NANOGrav 12.5 year data set: monitoring interstellar scattering delays.	TURNER J.E., McLAUGHLIN M.A., CORDES J.M., et al.
`2021ApJ...923L..22A`	`46`			`X`	`1`	`11`	`30`	The NANOGrav 12.5-year data set: search for non-einsteinian polarization modes in the gravitational-wave background.	ARZOUMANIAN Z., BAKER P.T., BLUMER H., et al.
`2022MNRAS.510.4873A`	`93`			`F`	`1`	`52`	`185`	The International Pulsar Timing Array second data release: Search for an isotropic gravitational wave background.	ANTONIADIS J., ARZOUMANIAN Z., BABAK S., et al.
`2022MNRAS.510.6011W`	`18`		`D`		`1`	`53`	`15`	Formation of millisecond pulsars with long orbital periods by accretion-induced collapse of white dwarfs.	WANG B., LIU D. and CHEN H.
`2022ApJ...927..117W`	`18`		`D`		`1`	`123`	`8`	Gamma-Ray Spectral Properties of the Galactic Globular Clusters: Constraint on the Number of Millisecond Pulsars.	WU W., WANG Z., XING Y., et al.
`2022ApJ...929..168C`	`45`			`X`	`1`	`14`	`~`	Parameter-estimation Biases for Eccentric Supermassive Binary Black Holes in Pulsar Timing Arrays: Biases Caused by Ignored Pulsar Terms.	CHEN J.-W. and WANG Y.
`2022ApJS..260...53A`	`18`		`D`		`1`	`6714`	`133`	Incremental Fermi Large Area Telescope Fourth Source Catalog.	ABDOLLAHI S., ACERO F., BALDINI L., et al.
`2022ApJ...932..105J`	`314`			`X F`	`6`	`22`	`~`	Gravitational-wave Statistics for Pulsar Timing Arrays: Examining Bias from Using a Finite Number of Pulsars.	JOHNSON A.D., VIGELAND S.J., SIEMENS X., et al.
`2022ApJ...934...65K`	`18`		`D`		`1`	`191`	`3`	The Fundamental Plane Relation for Gamma-Ray Pulsars Implied by 4FGL.	KALAPOTHARAKOS C., WADIASINGH Z., HARDING A.K., et al.
`2022A&A...664A.116L`	`18`		`D`		`4`	`20`	`4`	Long-term scintillation studies of EPTA pulsars. I. Observations and basic results.	LIU Y., VERBIEST J.P.W., MAIN R.A., et al.
`2022ApJ...936...86S`	`645`		`D`	`S X C`	`13`	`8`	`5`	Wide-band Timing of GMRT-discovered Millisecond Pulsars.	SHARMA S.S., ROY J., BHATTACHARYYA B., et al.
`2022RAA....22j5012Y`	`18`		`D`		`1`	`10`	`~`	Wiener Filtration Algorithm of an Ensemble Pulsar Timescale Based on a Power-law Model of Pulsar Power Spectrum.	YANG T.-G., TONG M.-L. and GAO Y.-P.
`2023MNRAS.518.1802S`	`19`		`D`		`3`	`29`	`7`	Quality over quantity: Optimizing pulsar timing array analysis for stochastic and continuous gravitational wave signals.	SPERI L., PORAYKO N.K., FALXA M., et al.
`2023MNRAS.519.4982D`	`718`		`D`	`S X F`	`14`	`36`	`6`	The MSPSRπ catalogue: VLBA astrometry of 18 millisecond pulsars.	DING H., DELLER A.T., STAPPERS B.W., et al.
`2023A&A...674A.187L`	`19`		`D`		`1`	`10`	`~`	Systematics of planetary ephemeris reference frames inferred from pulsar timing astrometry.	LIU N., ZHU Z., ANTONIADIS J., et al.
`2023ApJ...951L...9A`	`112`		`D`	`C`	`5`	`68`	`35`	The NANOGrav 15 yr Data Set: Observations and Timing of 68 Millisecond Pulsars.	AGAZIE G., ALAM M.F., ANUMARLAPUDI A., et al.
`2023ApJ...951L..10A`	`93`			`C`	`1`	`72`	`14`	The NANOGrav 15 yr Data Set: Detector Characterization and Noise Budget.	AGAZIE G., ANUMARLAPUDI A., ARCHIBALD A.M., et al.
`2023RAA....23g5024X`	`94`			`F`	`2`	`56`	`95`	Searching for the Nano-Hertz Stochastic Gravitational Wave Background with the Chinese Pulsar Timing Array Data Release I.	XU H., CHEN S., GUO Y., et al.
`2023ApJ...951L..28A`	`19`		`D`		`1`	`47`	`~`	The NANOGrav 12.5 yr Data Set: Bayesian Limits on Gravitational Waves from Individual Supermassive Black Hole Binaries.	ARZOUMANIAN Z., BAKER P.T., BLECHA L., et al.
`2023ApJ...951L..50A`	`159`		`D`	`X C`	`3`	`72`	`13`	The NANOGrav 15 yr Data Set: Bayesian Limits on Gravitational Waves from Individual Supermassive Black Hole Binaries.	AGAZIE G., ANUMARLAPUDI A., ARCHIBALD A.M., et al.
`2023A&A...678A..48E`	`812`		`D`	`S X C`	`16`	`25`	`~`	The second data release from the European Pulsar Timing Array I. The dataset and timing analysis.	EPTA COLLABORATION, ANTONIADIS J., BABAK S., et al.
`2023A&A...678A..49E`	`299`		`D`	`X`	`7`	`25`	`~`	The second data release from the European Pulsar Timing Array II. Customised pulsar noise models for spatially correlated gravitational waves.	EPTA COLLABORATION AND INPTA COLLABORATION, ANTONIADIS J., ARUMUGAM P., et al.
`2023A&A...678A..50E`	`93`			`F`	`2`	`26`	`~`	The second data release from the European Pulsar Timing Array III. Search for gravitational wave signals.	EPTA COLLABORATION AND INPTA COLLABORATION, ANTONIADIS J., ARUMUGAM P., et al.
`2023ApJ...958..191S`	`19`		`D`		`4`	`504`	`~`	The Third Fermi Large Area Telescope Catalog of Gamma-Ray Pulsars.	SMITH D.A., ABDOLLAHI S., AJELLO M., et al.
`2023A&A...679A..17P`	`19`		`D`		`1`	`140`	`~`	Improving the spin-down limits of the continuous gravitational waves emitted from rotating triaxial pulsars.	PATHAK D. and CHATTERJEE D.
`2023A&A...679A..74W`	`47`			`X`	`1`	`9`	`~`	Anomalous orbital expansion of the low-mass X-ray binary 2A 1822-371: the existence of a circumbinary disk?	WEI N., JIANG L. and CHEN W.-C.
`2023RAA....23l5020W`	`19`		`D`		`1`	`65`	`~`	Effect of Matching Algorithm and Profile Shape on Pulsar Pulse Time of Arrival Uncertainties.	WANG J., VERBIEST J.P.W., SHAIFULLAH G.M., et al.
`2024ApJ...962...54W`	`50`			`X`	`1`	`4`	`~`	Formation of PSR J1012+5307 with an Extremely Low-mass White Dwarf: Testing Magnetic Braking Models.	WEI N., XU K., GAO Z.-F., et al.
`2024ApJ...963...61A`	`150`			`X F`	`2`	`46`	`~`	The NANOGrav 12.5 yr Data Set: Search for Gravitational Wave Memory.	AGAZIE G., ARZOUMANIAN Z., BAKER P.T., et al.
`2024ApJS..271...23D`	`20`		`D`		`2`	`196`	`~`	The AO327 Drift Survey Catalog and Data Release of Pulsar Detections.	DENEVA J.S., McLAUGHLIN M., OLSZANSKI T.E.E., et al.
`2024A&A...683A.201V`	`20`		`D`		`1`	`25`	`~`	Testing strengths, limitations, and biases of current pulsar timing arrays' detection analyses on realistic data.	VALTOLINA S., SHAIFULLAH G., SAMAJDAR A., et al.

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