Upper critical field of electron-doped Pr2-xCexCuO4-δ in parallel magnetic fields

Abstract

We report a systematic study of the resistive superconducting transition in the electron-doped cuprates Pr2-xCexCuO4-δ down to 1.5 K for magnetic field up to 58 T applied parallel to the conducting ab-planes. We find that the zero temperature parallel critical field (Hc2 ab(0)) exceeds 58 T for the underdoped and optimally-doped films. For the overdoped films, 58 T is sufficient to suppress the superconductivity. We also find that the Zeeman energy μBHc2 ab(0) reaches the superconducting gap (0), i.e. μBHc2 ab(0) 0, for all the dopings, strongly suggesting that the parallel critical field is determined by the Pauli paramagnetic limit in electron-doped cuprates.