Title: Efficiency of Non-Thermal Pulsed Emission from Eight MeV Pulsars

Abstract: We report on the properties of pulsed X-ray emission from eight MeV pulsars using XMM-Newton, NICER, NuSTAR and HXMT data. For the five among eight MeV pulsars, the X-ray spectra can be fitted by a broken-power law model with a break energy of $\sim5-10$ keV. The photon index below and above break energy are $\sim 1$ and $\sim 1.5$, respectively. In comparison with the X-ray emission of the $Fermi$-LAT pulsars, the MeV pulsars have a harder spectrum and ahigher radiation efficiency in 0.3-10 keV energy bands. By assuming the isotropic emission, the emission efficiency in the keV-MeV bands is estimated to be $\eta_{MeV}\sim 0.01-0.1$, and it is similar to the efficiency of GeV emission of the $Fermi$-LAT pulsars that have similar spin-down power. To explain the observed efficiency of the MeV pulsars, we estimate the required pair multiplicity as $10^{4-7}$ that depends on the emission process (curvature radiation or synchrotron radiation) and the location in the magnetosphere. The large multiplicity indicates that the secondary pairs that are created by a pair-creation process of the GeV photons produce the X-ray/soft gamma-ray emissions of the MeV pulsars. We speculate that the difference between the MeV pulsars and $Fermi$-LAT pulsars is attributed to the difference in viewing angle measured from the spin-axis, if the emission originates from a region inside the light cylinder (canonical gap model) or the difference in the inclination angle of the magnetic axis, if the emission is produced from equatorial current sheet outside the light cylinder.