A plasma generating apparatus may include a cathode assembly including a cathode, an anode assembly including an anode having therein a plasma generation space, and one or more magnetic force generators configured to generate a magnetic force. The anode assembly has one end portion in which a gas supply path is provided and the other end portion having an opening, the gas supply path configured to supply a plasma generating gas to the plasma generation space. The gas supply path is configured to generate a vortex of the plasma generating gas in the plasma generation space and said one or more magnetic force generators are arranged such that the magnetic force is generated in a direction opposite to a rotational direction of the vortex of the plasma generating gas.

A novel plasma generation and containment system includes a first electrode, a second electrode, a power source, and an electromagnet. The first electrode and the second electrode are electrically coupled via a wire to form an open circuit. The voltage is asserted on the open circuit to form a spark between the first electrode and the second electrode to form a closed circuit. Then, a current is asserted on the closed circuit to form a plasma between the first electrode and the second electrode. The electromagnet provides a magnetic field to contain and compress the plasma.

A novel plasma generation and containment system includes a first electrode, a second electrode, a power source, and an electromagnet. The first electrode and the second electrode are electrically coupled via a wire to form an open circuit. The voltage is asserted on the open circuit to form a spark between the first electrode and the second electrode to form a closed circuit. Then, a current is asserted on the closed circuit to form a plasma between the first electrode and the second electrode. The electromagnet provides a magnetic field to contain and compress the plasma.

An atomic beam generator includes a cathode constituted as a housing having an emission surface provided with an irradiation port through which an atomic beam is emissive; an anode disposed inside the cathode to generate plasma between the cathode and the anode; and a magnetic field generating unit including a first magnetic field generating unit that generates a first magnetic field and a second magnetic field generating unit that generates a second magnetic field, and guiding positive ions produced in the cathode to the emission surface by generating, in the cathode, the first magnetic field and the second magnetic field both parallel to the emission surface such that a magnetic field direction is leftward in the first magnetic field and is rightward in the second magnetic field when viewed from an emission surface side on condition of the first magnetic field being positioned above the second magnetic field.

A method and apparatus for making carbon black. A plasma gas is flowed into a plasma forming region containing at least one, magnetically isolated, plasma torch containing at least one electrode, and forming a plasma. Collecting the plasma formed in a cooled header and flowing the plasma through at least one reaction region to heat the reaction region, and injecting carbon black forming feedstock into the reaction region, resulting in the formation of at least one grade of carbon black. An apparatus for making carbon black is also described including a plasma forming section containing at least one, magnetically isolated plasma torch containing at least one electrode, in fluid flow communication with at least one carbon black forming reactor section, the plasma section and reactor section separated by a plasma formed collection header.

A method and apparatus for making carbon black. A plasma gas is flowed into a plasma forming region containing at least one, magnetically isolated, plasma torch containing at least one electrode, and forming a plasma. Collecting the plasma formed in a cooled header and flowing the plasma through at least one reaction region to heat the reaction region, and injecting carbon black forming feedstock into the reaction region, resulting in the formation of at least one grade of carbon black. An apparatus for making carbon black is also described including a plasma forming section containing at least one, magnetically isolated plasma torch containing at least one electrode, in fluid flow communication with at least one carbon black forming reactor section, the plasma section and reactor section separated by a plasma formed collection header.

A method and apparatus for making carbon black. A plasma gas is flowed into a plasma forming region containing at least one, magnetically isolated, plasma torch containing at least one electrode, and forming a plasma. Collecting the plasma formed in a cooled header and flowing the plasma through at least one reaction region to heat the reaction region, and injecting carbon black forming feedstock into the reaction region, resulting in the formation of at least one grade of carbon black. An apparatus for making carbon black is also described including a plasma forming section containing at least one, magnetically isolated plasma torch containing at least one electrode, in fluid flow communication with at least one carbon black forming reactor section, the plasma section and reactor section separated by a plasma formed collection header.

A method and apparatus for making carbon black. A plasma gas is flowed into a plasma forming region containing at least one, magnetically isolated, plasma torch containing at least one electrode, and forming a plasma. Collecting the plasma formed in a cooled header and flowing the plasma through at least one reaction region to heat the reaction region, and injecting carbon black forming feedstock into the reaction region, resulting in the formation of at least one grade of carbon black. An apparatus for making carbon black is also described including a plasma forming section containing at least one, magnetically isolated plasma torch containing at least one electrode, in fluid flow communication with at least one carbon black forming reactor section, the plasma section and reactor section separated by a plasma formed collection header.

A method and system of adaptive cold atmospheric based treatment for diseased tissues, such as an area with cancerous cells, is disclosed. A plasma device generates a cold atmospheric plasma jet directed at the area having cancerous cells. A sensor is operable to sense the viability of the cancerous cells in the area. A controller is coupled to the plasma device and sensor. The controller is operative to control an initial plasma jet generated by the plasma device. The controller receives a sensor signal from the sensor to determine cell viability of the selected cells from the initial plasma jet. The controller adjusts the plasma jet based on the viability of the cancerous cells.

A method and system of adaptive cold atmospheric based treatment for diseased tissues, such as an area with cancerous cells, is disclosed. A plasma device generates a cold atmospheric plasma jet directed at the area having cancerous cells. A sensor is operable to sense the viability of the cancerous cells in the area. A controller is coupled to the plasma device and sensor. The controller is operative to control an initial plasma jet generated by the plasma device. The controller receives a sensor signal from the sensor to determine cell viability of the selected cells from the initial plasma jet. The controller adjusts the plasma jet based on the viability of the cancerous cells.