Tuning time and energy resolutions in time- and angle-resolved photoemission spectroscopy

Time- and angle-resolved photoemission is a powerful probe of nonequilibrium band structures. Time and energy resolution are two important parameters which determine the range of possible measurements. We demonstrate tunable time and energy resolutions by adjusting the thickness of nonlinear BaB₂O₄ crystals commonly used to generate 6 eV pulses from a 1.5 eV fundamental. We tune the time resolution between 58 and 103 fs and obtain corresponding energy resolutions of 55 to 27 meV, maintaining a time-bandwidth product under 150% of the Fourier limit. Calculations clarify the interactions between laser bandwidth and nonlinear crystal thickness which contribute to determining experimental resolutions.