Principles of electron wave front modulation with two miniature electron mirrors.

We have analyzed the possibilities of wave front shaping with miniature patterned electron mirrors through the WKB approximation. Based on this, we propose a microscopy scheme that uses two miniature electron mirrors on an auxiliary optical axis that is in parallel with the microscope axis. A design for this microscopy scheme is presented for which the two axes can be spatially separated by as little as 1 mm.

Electrostatic electron mirror in SEM for simultaneous imaging of top and bottom surfaces of a sample.

The use of electron mirrors in aberration correction and surface-sensitive microscopy techniques such as low-energy electron microscopy has been established. However, in this work, by implementing an easy to construct, fully electrostatic electron mirror system under a sample in a conventional scanning electron microscope (SEM), we present a new imaging scheme which allows us to form scanned images of the top and bottom surfaces of the sample simultaneously. We believe that this imaging scheme could be of great value to the field of in-situ SEM which has been limited to observation of dynamic changes such as crack propagation and other surface phenomena on one side of samples at a time.

Flat electron mirror.

Electron beams can be reflected by an electrode that is at a more negative potential than the cathode from which the beam is emitted. We want to design a mirror with a flat mirror electrode where the electrons are reflected at a plane very close to the electrode. The wave front of an electron can then be shaped when the mirror contains a surface topography or modulated potential.

Compact flat-panel gas-gap heat switch operating at 295 K.

Heat switches are devices that can change from a thermally conducting (on-) state to an insulating (off-) state whenever the need arises. They enable adaptive thermal management strategies in which cooling rates are altered either spatially or temporally, leading to a substantial reduction in the energy and mass budget of a large range of systems. State-of-the-art heat switches are only rarely employed in thermal system architectures, since they are rather bulky and have a limited thermal performance (expressed as the heat transfer ratio between the on- and off-state heat conductance).

Errors introduced in radioligand binding studies due to displaceable, cation dependent, [3H]prazosin binding to glass-fibre filters and glass surfaces.

[3H]prazosin not only specifically and homogeneously labels alpha 1-adrenoceptors, but also binds to glass surfaces and non-linearly to the glass-fibre filters, commonly used in radioligand binding experiments. Binding to filters can be modulated by unlabeled alpha-adrenergic compounds and cations. If no correction is applied for displaceable filter binding, analysis of [3H]prazosin binding experiments leads to erroneous results.