The likely detection of pulsed high-energy gamma-ray emission from millisecond pulsar PSR J0218+4232

We report circumstantial evidence for the first detection of pulsed high-en ergy gamma-ray emission from a millisecond pulsar, PSR J0218+4232, using da ta collected with the Energetic Gamma Ray Experiment (EGRET) on board the C ompton Gamma Ray Observatory (CGRO). The EGRET source 3EG J0222+4253 is sho wn to be spatially consistent with PSR J0218+3232 for the energy range 100- 300 MeV. Above 1 GeV the nearby BL Lac 3C 66A is the evident counterpart, a nd between 300 MeV and 1 GeV both sources contribute to the gamma-ray exces s. Folding the 100-1000 MeV photons with an accurate radio ephemeris of PSR J0218+4232 yields a double peaked pulse profile with a similar to 3.5 sigm a modulation significance and with a peak separation of similar to 0.45 sim ilar to the 0.1-10 keV pulse profile, A comparison in absolute phase with t he 610 MHz radio profile shows alignment of the gamma-ray pulses with two o f three radio pulses. The luminosity of the pulsed emission (0.1-1 GeV) amo unts L-gamma = 1.64 . 10(34). (Delta Omega/1 sr) . (d/5.7 kpc)(2) erg s(-1) which is similar to 7% of the pulsar's total spin-down luminosity. The sim ilarity of the X-ray and gamma-ray pulse profile shapes of PSR J0218+4232, and the apparent alignment of the gamma-ray pulses with two radio pulses at 610 MHz, bears resemblance to the well-known picture for the Crab pulsar. This similarity, and the fact that PSR J0218+4232 is one of three milliseco nd pulsars (the others are PSR B1821-24 and PSR B1937+21) which exhibit ver y hard, highly non-thermal, high-luminosity X-ray emission in narrow pulses led us to discuss these millisecond pulsars as a class, noting that each o f these has a magnetic field strength near the light cylinder comparable to that for the Crab. None of the current models for gamma-ray emission from radio pulsars can explain the gamma-ray spectrum and luminosity of PSR J021 8+4232.