In 2024, our paper on ferromagnetic cold-atom-ONF interface, ready! 

A soft ferromagnetic foil uniformizes Tesla-level magnetic fields generated by attached permanent magnets, producing a uniform and electronically tunable surface field on the opposite side. By arranging $n$ precisely fabricated rectangular foils, a nearly ideal magnetic quadrupole field with a substantial gradient can be created at center.  This robust and tunable field configuration is useful for 2-dimensional magneto-optical trapping (2D-MOT) and magnetic guiding of cold atoms. In this work, by aligning an optical nanofiber (ONF) to the zero-field line of a 2-foil-based planar 2D-MOT, we demonstrate field-free operation of the quantum optical interface in a quasi-continuous manner, without switching off the magnetic field. In addition to support efficient loading and control of the 1D ONF interface, the ferromagnetic device may also enable new quantum optical scenarios featuring interactions between co-guided atoms and photons.