Magnesium Paper

Laser cooling and storage of free atom, W. Ertmer, Physica Scripta, Volume 36, Number 2 (1987)

Broadband laser cooling on narrow transitions , H. Wallis et al., Journal of the Optical Society of America B Vol. 6, Issue 11, pp. 2211-2219 (1989)

Manipulation of Atoms by Laser Light, W. Ertmer, Physica Scripta, Volume 1992, T40 (1992)

The Magnesium Ramsey Interferometer: Applications and Prospects U. Sterr et al., Applied Physics B, Volume 54, Issue 5, pp 341–346 (1992)

High-resolution isotope shift measurement of the MgI 1S0 - 3P1 intercombination transition, U. Sterr et al., Applied Physics B, Volume 56, Issue 2, pp 62–64 (1993)

Optical Ramsey interferences on laser cooled and trapped atoms, detected by electron shelving, K. Senkstock et al., Optics Communications 103, 73-78 (1993)

Atom-interferometric determination of the dc-Stark shift of the Mg-intercombination line, V. Rieger et al., Optics Communications 99, 172-176 North-Holland (1993)

Scheme for measuring a Berry phase in an atom interferometer, M. Reich et al., Phys. Rev. A 47, 2518 (1993)

Optical Ramsey spectroscopy on laser-trapped and thermal Mg atoms, K. Senkstock et al., Applied Physics B, Volume 59, Issue 2, pp 99–115 (1994)

Three-beam atom interferometer H. Hinderthür et al., Phys. Rev. A 56, 2085 (1997)

Atom interferometry with polarizing beam splitters, H. Hinderthür et al., Phys. Rev. A 57, 4730 (1998)

Sub-Kilohertz Optical Spectroscopy with a Time Domain Atom Interferometer, F. Ruschewitz et al., Phys. Rev. Lett. 80, 3173 (1998)

Sub-kilohertz optical spectroscopy by time domain atom interferometry, K. Senkstock et al., Precision Electromagnetic Measurements Digest, Conference (1998)

Doppler Cooling and Trapping on Forbidden Transitions, T. Binnewies et al., PRL 87, 123002 (2001)

Improved high resolution spectroscopy with cold magnesium atoms, A. Douillet et al., Frequency Control Symposium and PDA Exhibition Jointly with the 17th European Frequency and Time Forum, 2003. Proceedings of the 2003 IEEE International

Modelling three-dimensional-quench cooling for alkaline-earth atoms, T. E. Mehlstäubler et al., Journal of Optics B: Quantum and Semiclassical Optics, Volume 5, Number 2 (2003)

A high-resolution Ramsey-Bordé spectrometer for optical clocks based on cold Mg atoms, J. Keupp et al., The European Physical Journal D - Atomic, Molecular, Optical and Plasma Physics, Volume 36, Issue 3, pp 289–294 (2005)

Optical quenching of metastable magnesium, N. Rehbein et al., PR A 76, 043406 (2007)

Frequency-stabilized Nd:YVO4 thin-disk laser, H. Stoehr et al., Applied Physics B, Volume 91, Issue 1, pp 29–33 (2008)

Absolute frequency measurement of the magnesium intercombination transition S01→P13, J. Friebe et al., PR A 78, 033830 (2008)

Observation of sub-Doppler temperatures in bosonic magnesium, T. E. Mehlstäubler et al., PR A 77, 021402(R) (2008)

Telecommunication fiber link for the remote characterization of a magnesium optical frequency standard, O. Terra et al., Proc. SPIE 7431, Time and Frequency Metrology II, 74310B (2009)

Phase-Coherent Frequency Comparison of Optical Clocks Using a Telecommunication Fiber Link, H. Schnatz et al., IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control ( Volume: 57, Issue: 1 (2010)

Long-distance remote comparison of ultrastable optical frequencies with 10−15 instability in fractions of a second , A. Pape et al., Optics Express Vol. 18, Issue 20, pp. 21477-21483 (2010)

Remote frequency measurement of the 1S0 → 3P1 transition in laser-cooled 24Mg J. Friebe et al., New Journal of Physics, Volume 13 (2011)

Beating the density limit by continuously loading a dipole trap from millikelvin-hot magnesium atoms, M. Riedmann et al., PR A 86, 043416 (2012)

Time transfer through optical fibres over a distance of 73 km 15 with an uncertainty below 100 ps, M. Rost et al., Metrologia, 49(6), 772-778 (2012)

An ultraviolet laser system for laser cooling and trapping of metastable magnesium, A.P. Kulosa et al., Arxiv-Version (2012)

The X1Σ+g ground state of Mg2 studied by Fourier-transform spectroscopy, H. Knöckel et al., J. Chem. Phys. 138, 094303 (2013)

The A1Σu+ system of Mg2, H. Knöckel et al., Eur. Phys. J. D 68: 293. (2014)

Towards a Mg Lattice Clock: Observation of the S01−P03 Transition and Determination of the Magic Wavelength, A. P. Kulosa et al., PRL 115, 240801 (2015)

Spectroscopy of the Mg 1S0—3P1 intercombination transition in a luminescent cell with walls at room temperature, V. I. Baraulya et al., Quantum Electronics, Volume 37, Number 12 (2007)

Measurement of the 3s3p 3P1 lifetime in magnesium using a magneto-optical trap, P. L. Hansen et al., PHYSICAL REVIEW A 77, 062502 (2008)

Isotope shifts of the (3s3p) 3P0,1,2−(3s4s) 3S1 Mg I transitions, M. He et al., PHYSICAL REVIEW A 80, 024501 (2009)

Metastable Magnesium fluorescence spectroscopy using a frequency-stabilized 517 nm laser, M. He et al., Optics Express Vol. 17, Issue 9, pp. 7682-7687 (2009)

Measurement of the spin-forbidden decay rate (3s3d)1D2\(3s3p)3P2,1 in 24Mg, K. T. Therkildsen et al., HYSICAL REVIEW A 79, 034501 (2009)

Measurement of the (3s3p)1P–(3s3d)1D isotope shift in Mg I, M. P. Steenstrup et al., PHYSICAL REVIEW A 82, 054501 (2010)

Experimental Determination of the 24Mg I ð3s3pÞ3P2 Lifetime, B. B. Jensen et al., PRL 107, 113001 (2011)

Precision spectroscopy of Mg atoms in a magneto-optical trap, A. N. Goncharov et al., Quantum Electronics, Volume 44, Number 6 (2014)

Deep laser cooling of magnesium atoms using a 33P2→33D3 dipole transition, D. V. Brazhnikov et al., Laser Physics, Volume 24, Number 7 (2014)

Hyperfine structure of the (3s3d)3DJ manifold of 25Mg I, N. K. Kjøller et al., PHYSICAL REVIEW A 91, 032515 (2015)

Absolute frequency and isotope shift of the magnesium (3s2)1S0→(3s3d)1D2 two-photon transition by direct frequency-comb spectroscopy,E. Peters et al., Phys. Rev. A 92, 063403 (2015)

Quantum treatment of two-stage sub-Doppler laser cooling of magnesium atoms, O. N. Prudnikov et al., PR A 92, 063413 (2015)

Magneto-optical trap formed by elliptically polarised light waves for Mg atomsl (http://iopscience.iop.org/article/10.1070/QEL15995/meta), O. Prudnikov et al., Quantum Electronics, Volume 46, Number 7 (2016)

New Approaches in Deep Laser Cooling of Magnesium Atoms for Quantum Metrology , O. Prudnikov et al., European Frequency and Time Forum (EFTF) (2016)

An optical frequency standard based on ultracold magnesium atoms, A. Goncharov et al., Journal of Physics: Conference Series, Volume 793, Number 1 (2017)

Higher-order effects on uncertainties of clocks of Mg atoms in an optical lattice, V. Ovsiannikov et al., Journal of Physics: Conference Series, Volume 793, Number 1 (2017)

Deep sub-Doppler cooling of Mg in MOT formed by light waves with elliptical polarization, O. Prudnikov et al., Journal of Physics: Conference Series, Volume 793, Number 1 (2017)

Quench http://iopscience.iop.org/article/10.1088/1742-6596/951/1/012019/pdf (2018)

Danish Group

<hi #ffc90e>ToDo: Paper with theoretical values for Mg</hi>