Total control over ultracold interactions via electric and magnetic fields

The scattering length is commonly used to characterize the strength of ultracold atomic interactions, since it is the leading parameter in the low-energy expansion of the scattering phase shift. Its value can be modified via a magnetic field, by using a Feshbach resonance. However, the effective range term, which is the second parameter in the phase shift expansion, determines the width of the resonance and gives rise to important properties of ultracold gases. Independent control over this parameter is not possible by using a magnetic field only. We demonstrate that a combination of magnetic and electric fields can be used to get independent control over both parameters, which leads to full control over elastic ultracold interactions.Comment: 4 pages, 3 figure

Heupfracturen zo snel mogelijk opereren

A recent retrospective study in the Netherlands found no significant association between delayed hip fracture surgery and the occurrence of complications. This argues against the use of the Dutch hospital quality indicator measuring the percentage of patients with hip fracture operated within 24 to 48 hours. However, much larger international prospective studies have shown that delaying surgery results in prolonged duration of pain and hospitalisation and increased rate of complications. There is no evidence that delaying surgery is beneficial for the patient. Therefore, the current Dutch hospital quality indicator for timely initiation of treatment for hip fractures should remain unchanged in the interest of this fragile patient group

Magnetic behaviour of narrow track thin-film heads

The influence of the trackwidth on the performance of thin film heads has been tested. Results of experiments on the wafer have indicated an increase in the head efficiency with decreasing trackwidth. This was underlined by measurements of the head fringe field and tape recording experiments. A model which takes the domain structure into account has been developed to interpret this behaviour

Wat is er bekend over de werkzaamheid van 'Sonocur Plus'?

Letter by Dalhuisen with a response from Verhaa

Feshbach resonances with large background scattering length: interplay with open-channel resonances

Feshbach resonances are commonly described by a single-resonance Feshbach model, and open-channel resonances are not taken into account explicitly. However, an open-channel resonance near threshold limits the range of validity of this model. Such a situation exists when the background scattering length is much larger than the range of the interatomic potential. The open-channel resonance introduces strong threshold effects not included in the single-resonance description. We derive an easy-to-use analytical model that takes into account both the Feshbach resonance and the open-channel resonance. We apply our model to $^{85}$Rb, which has a large background scattering length, and show that the agreement with coupled-channels calculations is excellent. The model can be readily applied to other atomic systems with a large background scattering length, such as $^6$Li and $^{133}$Cs. Our approach provides full insight into the underlying physics of the interplay between open-channel (or potential) resonances and Feshbach resonances.Comment: 16 pages, 12 figures, accepted for publication in Phys. Rev. A; v2: added reference