Operating A Yb-171(+) Microwave Ion Clock In A Continuous Mode

We are developing a highly miniaturized Yb-171(+) ion clock that operates in a continuous microwave-optical double-resonance mode by continuously probing the 12.6 GHz hyperfine transition in the Yb-171(+) ion. In the continuous mode, the clock will not require optical shutters and electrical switches, minimizing the components of the clock. Here, we demonstrate operating the ion clock with ions trapped in a permanently sealed, passively pumped vacuum package 3 cm(3) in volume. With resonant 369-nm light continuously illuminating the ions, the light shift is a substantial systematic shift of the hyperfine ground state that must to be well characterized and controlled. We present measurements of the light shift and demonstrate clock frequency instabilities below 1 x 10(-12) at 100 s of averaging.