Title :
Superconducting atom chips
Author :
Siercke, M. ; Chan, K.S. ; Zhang, B. ; Lim, M.J. ; Dumke, R.
Author_Institution :
Div. of Phys. & Appl. Phys., Nanyang Technol. Univ., Singapore, Singapore
fDate :
Aug. 28 2011-Sept. 1 2011
Abstract :
We investigate superconducting chip structures for trapping and manipulating atoms. These structures are based on the average magnetic field of vortices induced in a type-II superconducting thin film. This magnetic field is the critical ingredient of the demonstrated vortex-based atom trap, which operate without transport current. We employ the hysteretic behavior of a superconducting thin film in the remanent state to generate different traps and flexible magnetic potentials for ultra-cold atoms. The experimental realization can be described by the Bean´s critical-state method to model the vortex field through mesoscopic super currents induced in the thin strip. Various vortex patterns can be obtained by programming different loading-field and transport current sequences. Furthermore we will discuss the expected enhanced lifetime of atoms trapped close to a superconducting surface in comparison with a metallic surface.
Keywords :
magnetic fields; optical vortices; radiation pressure; superconducting integrated circuits; superconducting thin films; Bean critical state method; atom trapping; magnetic field; magnetic potentials; manipulating atoms; mesoscopic super currents; remanent state; superconducting atom chips; transport current sequences; type-II superconducting thin film; ultracold atoms; Charge carrier processes; Films; Magnetic fields; Strips; Superconducting magnets; Superconducting thin films;
Conference_Titel :
Quantum Electronics Conference & Lasers and Electro-Optics (CLEO/IQEC/PACIFIC RIM), 2011
Conference_Location :
Sydney, NSW
Print_ISBN :
978-1-4577-1939-4
DOI :
10.1109/IQEC-CLEO.2011.6193801
