Karen Marie Hilligsøe scite author profile

The image acquisition and time-lapse analysis system makes it possible to determine exact timing of embryo cleavages in a clinical setting. We propose a multivariable model based on our findings to classify embryos according to their probability of implantation. The efficacy of this classification will be evaluated in a prospective randomized study that ultimately will determine if implantation rates can be improved by time-lapse analysis.

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Supercontinuum generation in a photonic crystal fiber with two zero dispersion wavelengths

Hilligsøe

et al. 2004

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We demonstrate supercontinuum generation in a highly nonlinear photonic crystal fiber with two closely lying zero dispersion wavelengths. The special dispersion of the fiber has a profound influence on the supercontinuum which is generated through self-phase modulation and phasematched four-wave mixing and not soliton fission as in the initial photonic crystal fibers. The supercontinuum has high spectral density and is extremely independent of the input pulse over a wide range of input pulse parameters. Simulations show that the supercontinuum can be compressed to ultrashort pulses.

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Linking phytoplankton community size composition with temperature, plankton food web structure and sea–air CO2 flux

Hilligsøe

Richardson

Bendtsen³

et al. 2011

Deep Sea Research Part I: Oceanographic Research Papers

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Nuclear moments of neon isotopes in the range fromNe17at the proton drip line to neutron-richNe25
Geithner
¹
,
Brown
²
,
Hilligsøe
³

et al. 2005
Phys. Rev. C
44
3
77
2
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Nuclear moments of odd-A neon isotopes in the range 17 A 25 have been determined from optical hyperfine structures measured by collinear fast-beam laser spectroscopy. The magnetic dipole moments of 17 Ne, 23 Ne, and 25 Ne, as well as the electric quadrupole moment of 23 Ne, are either reported for the first time or improved considerably. The measurements also decide for a 1/2 + ground state of 25 Ne. The behavior of the magnetic moments of the proton drip-line nucleus 17 Ne and its mirror partner 17 N suggests isospin symmetry. Thus, no clear indication of an anomalous nuclear structure is found for 17 Ne. The magnetic moments of the investigated nuclei are discussed in a shell-model approach.

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