A. N. Goncharov, A. E. Bonert, V. I. Baraulya, M. A. Tropnikov, S. A. Kuznetsov, A. V. Taichenachev, S. N. Bagayev, “Laser frequency stabilisation on narrow resonances of cold magnesium atoms at the 1S0 – 3P1 transition”, Kvantovaya Elektronika, 2018, Volume 48, Number 5,Pages 410

This article is cited in 5 papers

Special issue 'Physics of ultracold atoms and their applications'

Laser frequency stabilisation on narrow resonances of cold magnesium atoms at the ¹S₀ – ³P₁ transition

A. N. Goncharov^abc, A. E. Bonert^a, V. I. Baraulya^a, M. A. Tropnikov^a, S. A. Kuznetsov^a, A. V. Taichenachev^ab, S. N. Bagayev^ab

^a Institute of Laser Physics, Siberian Branch, Russian Academy of Sciences, Novosibirsk
^b Novosibirsk State University
^c Novosibirsk State Technical University

Abstract: Experimental studies aimed at developing an optical frequency standard based on ultracold magnesium atoms with a relative uncertainty of Δν/ν < 10^-16 are performed. The frequency of the clock laser system at a wavelength of 457 nm is stabilised to narrow optical resonances (Ramsey fringes) in time-separated laser fields interacting with cold magnesium atoms localised in a magneto-optical trap (MOT). The frequency stability of the laser system is investigated using a femtosecond comb based on a Ti : sapphire laser. Long-term frequency stability (determined by the Allan function) of ~5 × 10^-15 at averaging time τ = 1000 s is obtained.

Keywords: laser cooling, magnesium, frequency standards.

Received: 21.02.2018
Revised: 16.03.2018