Muhammad Bashir scite author profile

The generation and control of fast switchable magnetic fields with large gradients on the nanoscale is of fundamental interest in material science and for a wide range of applications. However, it has not yet been possible to characterize those fields at high bandwidth with arbitrary orientations. Here, we measure the magnetic field generated by a hard-disk-drive write head with high spatial resolution and large bandwidth by coherent control of single electron and nuclear spins. We are able to derive field profiles from coherent spin Rabi oscillations close to the gigahertz range, measure magnetic field gradients on the order of 1 mT nm and quantify axial and radial components of a static and dynamic magnetic field independent of its orientation. Our method paves the way for precision measurement of the magnetic fields of nanoscale write heads, which is important for future miniaturization of these devices.

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Dynamic wetting in microfluidic droplet formation

Bashir

Solvas

Bashir

et al. 2014

BioChip J

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Switchable Cell Trapping Using Superparamagnetic Beads

et al. 2010

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Abstract-Ni81Fe19 microwires are investigated as the basis of a switchable template for positioning magnetically-labeled neural Schwann cells. Magnetic transmission X-ray microscopy and micromagnetic modeling show that magnetic domain walls can be created or removed in zigzagged structures by an applied magnetic field. Schwann cells containing superparamagnetic beads are trapped by the field emanating from the domain walls. The design allows Schwann cells to be organized on a surface to form a connected network and then released from the surface if required. As aligned Schwann cells can guide nerve regeneration, this technique is of value for developing glial-neuronal co-culture models in the future treatment of peripheral nerve injuries.

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Characterization of atmospheric pressure microplasma produced from argon and a mixture of argon–ethylenediamine

et al. 2014

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Hydrophilic Surface Modification of PDMS Microchannel for O/W and W/O/W Emulsions

Bashir

Solvas

et al. 2015

Micromachines

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A surface modification method for bonded polydimethylsiloxane (PDMS) microchannels is presented herein. Polymerization of acrylic acid was performed on the surface of a microchannel using an inline atmospheric pressure dielectric barrier microplasma technique. The surface treatment changes the wettability of the microchannel from hydrophobic to hydrophilic. This is a challenging task due to the fast hydrophobic recovery of the PDMS surface after modification. This modification allows the formation of highly monodisperse oil-in-water (O/W) droplets. The generation of water-in-oil-in-water (W/O/W) double emulsions was successfully achieved by connecting in series a hydrophobic microchip with a modified hydrophilic microchip. An original channel blocking technique to pattern the surface wettability of a specific section of a microchip using a viscous liquid comprising a mixture of honey and glycerol, is also presented for generating W/O/W emulsions on a single chip.

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Muhammad Bashir

Measuring broadband magnetic fields on the nanoscale using a hybrid quantum register

Dynamic wetting in microfluidic droplet formation

Switchable Cell Trapping Using Superparamagnetic Beads

Characterization of atmospheric pressure microplasma produced from argon and a mixture of argon–ethylenediamine

Hydrophilic Surface Modification of PDMS Microchannel for O/W and W/O/W Emulsions

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