Toward a Realistic Pulsar Magnetosphere

Kalapotharakos, Constantinos; Kazanas, Demosthenes; Harding, A. K.; Contopoulos, Ioannis

doi:10.1088/0004-637x/749/1/2

Cited by 148 publications

(177 citation statements)

References 46 publications

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“…However, the stochastic resonance model for the quasiperiodicity in B1931+24 suggests the action of a ∼38 day period forcing function that is easiest to understand as modulation of the return current from a region outside the light cylinder. Equatorial current sheets that are disk-like are a common feature in recent numerical simulations of pulsar magnetospheres for aligned rotators (Krause-Polstorff & Michel 1985;Contopoulos 2005;Timokhin 2010;Kalapotharakos et al 2012;Li et al 2012aLi et al , 2012b. Equatorial disks are prominent in charge-starved cases (Michel 1980) that are electromagnetically "dead."…”

Section: State Triggeringmentioning

confidence: 99%

“…The potential drop sustains the current flow that contributes to the spin-down torque and, along with secondary particles, produces radio to gamma-ray emission. The OFL region and magnetic PC are defined self-consistently from the combined ambient stellar magnetic field and current-driven field; the latter, in turn, depends on boundary conditions imposed by the global structure of the magnetosphere (e.g., Kalapotharakos et al 2012).…”

Section: Circuit Analogsmentioning

confidence: 99%

“…Recent simulations (Kalapotharakos et al 2012;Li et al 2012aLi et al , 2012b demonstrate exquisitely how the spin-down rate depends on the magnetic flux threading the light cylinder and takes on limiting values for vacuum (ρ = 0) and force-free (ρ = ρ GJ ) conditions in the OFL region. Spin-down rates in these limits differ by a factor of four for inclination angles of 45 • , easily bracketing the 2.5:1 range seen in long-term intermittent pulsars.…”

Section: Circuit Analogsmentioning

confidence: 99%

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Pulsar State Switching From Markov Transitions and Stochastic Resonance

Cordes

2013

ApJ

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Markov processes are shown to be consistent with metastable states seen in pulsar phenomena, including intensity nulling, pulse-shape mode changes, subpulse drift rates, spin-down rates, and X-ray emission, based on the typically broad and monotonic distributions of state lifetimes. Markovianity implies a nonlinear magnetospheric system in which state changes occur stochastically, corresponding to transitions between local minima in an effective potential. State durations (though not transition times) are thus largely decoupled from the characteristic timescales of various magnetospheric processes. Dyadic states are common but some objects show at least four states with some transitions forbidden. Another case is the long-term intermittent pulsar B1931+24 that has binary radio-emission and torque states with wide, but non-monotonic duration distributions. It also shows a quasi-period of 38 ± 5 days in a 13 yr time sequence, suggesting stochastic resonance in a Markov system with a forcing function that could be strictly periodic or quasi-periodic. Nonlinear phenomena are associated with time-dependent activity in the acceleration region near each magnetic polar cap. The polar-cap diode is altered by feedback from the outer magnetosphere and by return currents from the equatorial region outside the light cylinder that may also cause the neutron star to episodically charge and discharge. Orbital perturbations of a disk or current sheet provide a natural periodicity for the forcing function in the stochastic-resonance interpretation of B1931+24. Disk dynamics may introduce additional timescales in observed phenomena. Future work can test the Markov interpretation, identify which pulsar types have a propensity for state changes, and clarify the role of selection effects.

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Section: State Triggeringmentioning

confidence: 99%

Section: Circuit Analogsmentioning

confidence: 99%

Section: Circuit Analogsmentioning

confidence: 99%

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Pulsar State Switching From Markov Transitions and Stochastic Resonance

Cordes

2013

ApJ

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“…Modeling its emission drives ever-more sophisticated electrodynamic calculations (e.g., Wang & Hirotani 2011;Li et al 2012;Kalapotharakos et al 2012b;Pétri 2012). Throughout this paper, we will call pulsars in the main population of the spin period (P) and period derivative (Ṗ ) plane "young" to distinguish them from the much older "recycled" pulsars, including MSPs.…”

Section: Introductionmentioning

confidence: 99%

THE SECOND FERMI LARGE AREA TELESCOPE CATALOG OF GAMMA-RAY PULSARS

Abdo¹,

Ajello²,

Allafort³

et al. 2013

ApJS

824

1,129

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This catalog summarizes 117 high-confidence 0.1 GeV gamma-ray pulsar detections using three years of data acquired by the Large Area Telescope (LAT) on the Fermi satellite. Half are neutron stars discovered using LAT data through periodicity searches in gamma-ray and radio data around LAT unassociated source positions. The 117 pulsars are evenly divided into three groups: millisecond pulsars, young radio-loud pulsars, and young radio-quiet pulsars. We characterize the pulse profiles and energy spectra and derive luminosities when distance information exists. Spectral analysis of the off-peak phase intervals indicates probable pulsar wind nebula emission for four pulsars, and off-peak magnetospheric emission for several young and millisecond pulsars. We compare the gammaray properties with those in the radio, optical, and X-ray bands. We provide flux limits for pulsars with no observed gamma-ray emission, highlighting a small number of gamma-faint, radio-loud pulsars. The large, varied gamma-ray pulsar sample constrains emission models. Fermi's selection biases complement those of radio surveys, enhancing comparisons with predicted population distributions.

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“…Although the force-free solutions contain the distribution of charges and currents, including current closure, in the magnetosphere, they demand, by definition, that the electric field along the magnetic field direction vanish (ideal MHD). These force-free models can provide the global configuration of the pulsar magnetosphere but can tell us little about particle acceleration and emission.In the last few years, two groups [133,134] have begun developing dissipative pulsar magnetosphere models, where the ideal MHD condition for zero parallel electric field is dropped. These models assume a formulation for Ohm's law relating the macroscopic current to the electric field along magnetic field lines through a macroscopic conductivity parameter.…”

mentioning

confidence: 99%

Gamma-ray pulsars: A gold mine

Grenier

Harding

2015

Comptes Rendus. Physique

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The most energetic neutron stars, powered by their rotation, are capable of producing pulsed radiation from the radio up to γ rays with nearly TeV energies. These pulsars are part of the universe of energetic and powerful particle accelerators, using their uniquely fast rotation and formidable magnetic fields to accelerate particles to ultra-relativistic speed. The extreme properties of these stars provide an excellent testing ground, beyond Earth experience, for nuclear, gravitational, and quantum-electrodynamical physics. A wealth of γ-ray pulsars has recently been discovered with the Fermi Gamma-Ray Space Telescope. The energetic γ rays enable us to probe the magnetospheres of neutron stars and particle acceleration in this exotic environment. We review the latest developments in this field, beginning with a brief overview of the properties and mysteries of rotation-powered pulsars, and then discussing γ-ray observations and magnetospheric models in more detail. RésuméLes pulsars γ : une mine d'or : Lesétoilesà neutrons les plus puissantes, qui tirent leurénergie de leur rotation, sont capables d'émettre des impulsions lumineuses des ondes radio jusqu'aux rayons γ d'énergies proches du TeV. Ces pulsars font partie des puissants accélérateurs de particules de l'Univers, profitant de leur rotation unique et de leur formidable champ magnétique pour accélérer des particules jusqu'à des vitesses ultra-relativistes. Les propriétés extrêmes de cesétoiles permettent de tester la physique nucléaire, la gravitation et l'électrodynamique quantique dans des conditions inaccessibles sur Terre. Le télescope gamma spatial Fermi vient de révéler un richeéchantillon de pulsars γ. Leur rayonnement γénergétique permet de sonder la magnétosphère desétoilesà neutrons et d'étudier l'accélération de particules dans cet environnement exotique. Nous présentons les derniers développements de ce domaine, en commençant par une rapide revue des propriétés et mystères soulevés par ces pulsars, puis en détaillant plus avant les observations γ et les modèles magnétosphériques.Keywords : pulsar ; neutron star ; magnetosphere ; gamma rays ; acceleration Mots-clés : pulsar ;étoileà neutrons ; magnétosphère ; rayons gamma ; accélération Neutron stars, pulsars, and their puzzlesA neutron star is an extreme object in many regards. It is a compact, rapidly spinning, highly magnetized star, formed from the core of a massive star which runs out of nuclear power and collapses under its own gravity, with 53 radio-loud and γ-loud young pulsars (orange upward triangles), 37 radio-faint and γ-loud young pulsars (red downward triangles), 71 radio-loud and γ-loud millisecond pulsars (green filled circles, circled in black and red when in black-widow and redback systems, respectively), and 2256 other radio pulsars (light blue). Recently discovered millisecond pulsars, with noṖ measurement yet, are plotted as squares atṖ near 10 −21 . Lines of constant spin-down power (brown) and polar magnetic field strength (green) are given for a magnetic dipole i...

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Toward a Realistic Pulsar Magnetosphere

Cited by 148 publications

References 46 publications

Pulsar State Switching From Markov Transitions and Stochastic Resonance

Pulsar State Switching From Markov Transitions and Stochastic Resonance

THE SECOND FERMI LARGE AREA TELESCOPE CATALOG OF GAMMA-RAY PULSARS

Gamma-ray pulsars: A gold mine

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