A perpetual self-sustained frictionless maglev generator started from an external power or battery source is disclosed. The power from the generator can be remote at each station avoiding vulnerability from terrorist attacks. All automobiles, airplanes, watercraft, and space ships would be self-sustained and not require any fuel unless for emergency backup purposes only. They all can be measured/controlled by GPS on a distance used and charged for that use accordingly on a monthly basis. Nuclear disaster would not be a threat because the government could use this generator to power their apparatus instead.

A perpetual self-sustained frictionless maglev generator started from an external power or battery source is disclosed. The power from the generator can be remote at each station avoiding vulnerability from terrorist attacks. All automobiles, airplanes, watercraft, and space ships would be self-sustained and not require any fuel unless for emergency backup purposes only. They all can be measured/controlled by GPS on a distance used and charged for that use accordingly on a monthly basis. Nuclear disaster would not be a threat because the government could use this generator to power their apparatus instead.

A perpetual self-sustained frictionless maglev generator started from an external power or battery source is disclosed. The power from the generator can be remote at each station avoiding vulnerability from terrorist attacks. All automobiles, airplanes, watercraft, and space ships would be self-sustained and not require any fuel unless for emergency backup purposes only. They all can be measured/controlled by GPS on a distance used and charged for that use accordingly on a monthly basis. Nuclear disaster would not be a threat because the government could use this generator to power their apparatus instead.

A perpetual self-sustained frictionless maglev generator started from an external power or battery source is disclosed. The power from the generator can be remote at each station avoiding vulnerability from terrorist attacks. All automobiles, airplanes, watercraft, and space ships would be self-sustained and not require any fuel unless for emergency backup purposes only. They all can be measured/controlled by GPS on a distance used and charged for that use accordingly on a monthly basis. Nuclear disaster would not be a threat because the government could use this generator to power their apparatus instead.

The operation of the ultra-high frequency (UHF) electromagnetic motor or thruster, the object of this invention, is based on generating extremely short and powerful electrical, magnetic or electromagnetic field pulses and separating (unrooting) or disassociating said field pulses from the originating source, so that subsequently the emitting device and a device that is the objective or target, a support structure that supports both devices and another elements connected to said support structure are for an instant disassociated from the field, waiting for the pulsed field to reach the objective or target. At that moment, the element emits a field with a polarization that allows the exertion of a force that attracts or repels the field pulse, with respect to the objective or target and consequently with respect to the motor of which they form part as a unit, both the emitter and the target being joined by a support structure.

A diamagnetic levitation system having an open torus magnet segment with a pair of arms extending from a central base. The ends of the arms form a gap. The arms are superconducting magnets and the base is an electromagnet. The magnet segment creates a planar magnetic field which forms a flat ellipse as the planar magnetic field crosses from one arm to the other and which is positioned only across the gap. The electromagnet oscillates the planar magnetic field. The magnet segment levitates a diamagnetic object within and/or above the gap. A plurality of magnet segments can be arranged in series to form a levitation system of defined length. The magnet segments are rotatable so that the planar magnetic field may be tilted.

Embodiments of the invention relate generally to directed self-assembly (DSA) and, more particularly, to the DSA of electronic components using diamagnetic levitation.

Embodiments of the invention relate generally to directed self-assembly (DSA) and, more particularly, to the DSA of electronic components using diamagnetic levitation.

A system for welding an elongate element along a longitudinal direction to a component including a support element comprising a support surface, a magnetic field generating arrangement generating a predefined magnetic field, a carriage comprising contacts supporting an elongate element against movement along the surface of the component in directions perpendicular to the longitudinal direction, a superconducting element being fixedly connected to the carriage, an element cooling device for cooling the superconducting element below its transition temperature, a mover operable to linearly move the carriage, and a welding device for welding the elongate element to the component. The predefined magnetic field defines a linear path along the support surface for the superconducting element when the superconducting element has a temperature below its transition temperature.

A system for welding an elongate element along a longitudinal direction to a component including a support element comprising a support surface, a magnetic field generating arrangement generating a predefined magnetic field, a carriage comprising contacts supporting an elongate element against movement along the surface of the component in directions perpendicular to the longitudinal direction, a superconducting element being fixedly connected to the carriage, an element cooling device for cooling the superconducting element below its transition temperature, a mover operable to linearly move the carriage, and a welding device for welding the elongate element to the component. The predefined magnetic field defines a linear path along the support surface for the superconducting element when the superconducting element has a temperature below its transition temperature.