Enhancement of the effective mass at high magnetic fields in CeRhIn5

The Kondo-lattice compound CeRhIn$_5$ displays a field-induced Fermi surface reconstruction at $B^*\approx30$ T, which occurs within the antiferromagnetic state, prior to the quantum critical point at $B_{c0}\approx50$ T. Here, we probe the nature of the Fermi surface change at $B^*$ by measuring the magnetostriction, specific heat, and magnetic torque of CeRhIn$_5$ in high magnetic fields. The derived Sommerfeld coefficient from the specific heat and the effective cyclotron mass determined from quantum oscillations reveal a significant enhancement upon approaching $B^*$. Above $B^*$, the specific heat shows distinct behavior from that at low fields, when the Ce-$4f$ electrons are localized. Our observations uncover the field-induced itineracy of $4f$ electrons, providing new insights into the nature of the Fermi surface reconstruction at $B^*$. They also indicate that the Kondo coupling is robust upon increasing the magnetic field through the quantum critical point at 50 T.