Methods and systems are providing for generating relativistic motion of one or more nano particles. The methods include imposing a wave packet on the one or more nano particles by an electromagnetic field, the electromagnetic field including a vector potential AL perpendicular to the direction of the relativistic motion, where Aj_ is a function of an electron mass, an electron charge, a scalar potential summing a potential generated by nuclei of the one or more hydrogen atoms and an externally generated potential, and an electron velocity.

Photon drive and photon turbine When light reflects from a mirror it transfers sometimes more and sometimes less momentum to the mirror when mirror has dielectric in front compared to mirror in vacuum. Bouncing focused light between two mirrors fixed in a chasing where in front of one there is dielectric material and in front of the other there is vacuum, creates a net force difference. The second way to produce the force is through drag which light feels when it travels through dielectric material. This drag continuously transfers part of the light's momentum to the material. Net force from bouncing light between two mirrors can be used for linear propulsion in low friction environments such as outer space. When we redirect the light into a circular motion using coiled up fiber optic cable on the outer rim, than light creates rotating motion that can be used for electricity generation.

Photon drive and photon turbine When light reflects from a mirror it transfers sometimes more and sometimes less momentum to the mirror when mirror has dielectric in front compared to mirror in vacuum. Bouncing focused light between two mirrors fixed in a chasing where in front of one there is dielectric material and in front of the other there is vacuum, creates a net force difference. The second way to produce the force is through drag which light feels when it travels through dielectric material. This drag continuously transfers part of the light's momentum to the material. Net force from bouncing light between two mirrors can be used for linear propulsion in low friction environments such as outer space. When we redirect the light into a circular motion using coiled up fiber optic cable on the outer rim, than light creates rotating motion that can be used for electricity generation.

Photon drive and photon turbine When light reflects from a mirror it transfers sometimes more and sometimes less momentum to the mirror when mirror has dielectric in front compared to mirror in vacuum. Bouncing focused light between two mirrors fixed in a chasing where in front of one there is dielectric material and in front of the other there is vacuum, creates a net force difference. The second way to produce the force is through drag which light feels when it travels through dielectric material. This drag continuously transfers part of the light's momentum to the material. Net force from bouncing light between two mirrors can be used for linear propulsion in low friction environments such as outer space. When we redirect the light into a circular motion using coiled up fiber optic cable on the outer rim, than light creates rotating motion that can be used for electricity generation.

Photon drive and photon turbine When light reflects from a mirror it transfers sometimes more and sometimes less momentum to the mirror when mirror has dielectric in front compared to mirror in vacuum. Bouncing focused light between two mirrors fixed in a chasing where in front of one there is dielectric material and in front of the other there is vacuum, creates a net force difference. The second way to produce the force is through drag which light feels when it travels through dielectric material. This drag continuously transfers part of the light's momentum to the material. Net force from bouncing light between two mirrors can be used for linear propulsion in low friction environments such as outer space. When we redirect the light into a circular motion using coiled up fiber optic cable on the outer rim, than light creates rotating motion that can be used for electricity generation.

This application describes creating, modifying, and bending electromagnetic solitons at large scales for the various applications. An electromagnetic soliton generator system controls the magnetic soliton such that the orientation, rotation rate, pitch angle, and magnetic field strength of the solitons are modified to provide the described standing waves and generate a magnetic flux differential.

The disclosure describes a vehicle propulsion system that uses antimatter stored in a chamber stabilized by magnetic and/or electrostatic fields. The antimatter chamber is positioned at a distance from the vehicle's center of gravity to create a matter-antimatter dipole that generates propulsion. The system includes a propulsion apparatus with a laser that produces photons and an optical device that spatially separates some of the photons into electrons and positrons using nonlinear optical effects. These particles are coupled into separate optical fiber coils that preserve photon coherence as they propagate. The coils are arranged to be spaced apart or partially overlapping so that the separated electrons and positrons form a matter-antimatter dipole, which produces a propulsion force that drives the vehicle.

The disclosure describes a vehicle propulsion system that uses antimatter stored in a chamber stabilized by magnetic and/or electrostatic fields. The antimatter chamber is positioned at a distance from the vehicle's center of gravity to create a matter-antimatter dipole that generates propulsion. The system includes a propulsion apparatus with a laser that produces photons and an optical device that spatially separates some of the photons into electrons and positrons using nonlinear optical effects. These particles are coupled into separate optical fiber coils that preserve photon coherence as they propagate. The coils are arranged to be spaced apart or partially overlapping so that the separated electrons and positrons form a matter-antimatter dipole, which produces a propulsion force that drives the vehicle.