Pulsed and Unpulsed Gamma-Ray Emission from Millisecond Pulsars

Citations Over Time

Abstract

We use the outer gap model to study the gamma-ray emission and pair production processes of millisecond pulsars. The small light cylinder of millisecond pulsars results in a large optical depth for gamma rays produced inside the light cylinder. Electron/position cascade will take place until the energy of emitted gamma rays is less than a specific threshold energy (E_crit). The model for the pulsed gamma-ray spectrum is F₁(E_γ) ∼ E_γ-2 for E_γ ≤ E_crit. Furthermore, electrons/positrons accelerated in the outer gap can continue to interact with the low-energy gamma rays beyond the light cylinder to produce very high energy gamma rays. The subsequent pair production and radiation processes can produce unpulsed high-energy photons in the energy range of the EGRET detector on board the Compton Gamma Ray Observatory with a model spectrum F₂(E_γ) ∼ E_γ-3/2 for most millisecond pulsars. We have calculated the theoretical spectra of PSR JO751+18, PSR 1821-24, and PSR 1937+21 to illustrate our model. Unpulsed gamma-ray emission from other sources, e.g., 47 Tuc, are discussed also.

Related Papers

• → A high-frequency search for radio pulsars in three EGRET error boxes(2008)35 cited
• → Research on Ensemble Pulsar Time Based on Observed Data(2012)1 cited
• → Gamma-Ray Pulsars: Modeling and Searches(2003)1 cited
• → Gamma ray pulsar luminosities(2000)
• → Gamma Ray Pulsar Luminosities(2000)