An apparatus may include a cyclotron to receive an ion beam as an incident ion beam at an initial energy, and output the ion beam as an accelerated ion beam at an accelerated ion energy. The apparatus may further include an RF source to output an RF power signal to the cyclotron chamber, the RF power source comprising a variable power amplifier, and a movable stripper, translatable to intercept the ion beam within the cyclotron at a continuum of different positions.

A mass calibration kit and a calibration method for a low-mass area of a high-resolution mass spectrometer in negative ion mode. The mass calibration kit comprises semiconductor nanometer material suspension, a free fatty acid standard solution and a MALDI sample target cleaning liquid. The mass calibration method comprises: adjusting a voltage difference between a sample target of the mass spectrometer and a slit to be 20 V; dripping the semiconductor nanometer material suspension on the surface of the sample target till a solvent is completely volatilized and dried; dripping the free fatty acid standard solution on the surface of a semiconductor nanometer material till the solvent is completely volatilized and dried; and putting the sample target in the mass spectrometer for mass calibration, wherein calibration coefficients obtained after the instrument calibration can be used for correcting a sample mass spectrometric detection result. The calibration kit can effectively correct a low-mass area of a MALDI mass spectrometer in negative ion mode; mass spectrum signals are free of background interference; accurate measurement of the mass of a small molecule compound can be realized; and a relative error is less than 6 ppm.

The present invention provides methods and systems for an ion generator mounting device for application of bipolar ionization to airflow within a conduit, the device includes a housing for mounting to the conduit having an internal panel within the enclosure, and an arm extending from the housing for extension into the conduit and containing at least one opening. At least one coupling for mounting an ion generator to the arm oriented with an axis extending between a pair of electrodes of the ion generator being generally perpendicular to a flow direction of the airflow within the conduit.

A negative ion source includes a plasma chamber, a microwave source, a negative ion converter, a magnetic filter and a beam formation mechanism. The plasma chamber contains gas to be ionized. The microwave source transmits microwaves to the plasma chamber to ionize the gas into atomic species including hyperthermal neutral atoms. The negative ion converter converts the hyperthermal neutral atoms to negative ions. The magnetic filter reduces a temperature of an electron density provided between the plasma chamber and the negative ion converter. The beam formation mechanism extract the negative ions.

Embodiments of systems, devices, and methods relate to an ion beam source system. An ion source is configured to provide a negative ion beam to a tandem accelerator system downstream of the ion source, and a modulator system connected to an extraction electrode of the ion source is configured to bias the extraction electrode for a duration sufficient to maintain acceleration voltage stability of the tandem accelerator system.

The present invention provides methods and systems for an ion generator mounting device for application of bipolar ionization to airflow within a conduit, the device includes a housing for mounting to the conduit having an internal panel within the enclosure, and an arm extending from the housing for extension into the conduit and containing at least one opening. At least one coupling for mounting an ion generator to the arm oriented with an axis extending between a pair of electrodes of the ion generator being generally perpendicular to a flow direction of the airflow within the conduit.

A system and method of treating air. Bipolar ionization is delivered to an airflow within a conduit from a tubeless ion generator. The ionized airflow may be delivered to a conditioned airspace by an HVAC system. In alternate applications, the airflow delivers ionized combustion air to an engine. The invention also includes a mounting assembly for positioning one or more ion generators into an airflow.

A system and method of treating air. Bipolar ionization is delivered to an airflow within a conduit from a tubeless ion generator. The ionized airflow may be delivered to a conditioned airspace by an HVAC system. In alternate applications, the airflow delivers ionized combustion air to an engine. The invention also includes a mounting assembly for positioning one or more ion generators into an airflow.

An apparatus and method for the creation of negative ion beams is disclosed. The apparatus includes an RF ion source, having an extraction aperture. An antenna disposed proximate a dielectric window is energized by a pulsed RF power supply. While the RF power supply is actuated, a plasma containing primarily positive ions and electrons is created. When the RF power supply is deactivated, the plasma transforms into an ion-ion plasma. Negative ions may be extracted from the RF ion source while the RF power supply is deactivated. These negative ions, in the form of a negative ribbon ion beam, may be directed toward a workpiece at a specific incident angle. Further, both a positive ion beam and a negative ion beam may be extracted from the same ion source by pulsing the bias power supply multiple times each period.

An apparatus to generate negative hydrogen ions. The apparatus may include an ion source chamber having a gas inlet to receive H.sub.2 gas; a light source directing radiation into the ion source chamber to generate excited H.sub.2 molecules having an excited vibrational state from at least some of the H.sub.2 gas; a low energy electron source directing low energy electrons into the ion source chamber, wherein H.sup. ions are generated from at least some of the excited H.sub.2 molecules; and an extraction assembly arranged to extract the H.sup. ions from the ion source chamber.