Systems and methods are provided for receiving a first media content item associated with a first interactive object of an interactive message, receiving a second media content item associated with a second interactive object of the interactive message, generating a third media content item based on the first media content item and second media content item, wherein the third media content item comprises combined features of the first media content item and the second media content item, and causing display of the generated third media content item.

An object of the present invention is to provide an optical multipass cell that is compact and low cost, does not require the installation of a cooling mechanism around the mirror, and can increase the number of reflections of laser light, and the present invention provides an optical multipass cell comprising a container (3) to which a sample gas is supplied and a pair of concave mirrors (5 and 7) arranged so as to face each other inside the container (3), a laser beam is incident into the container (3), and the laser beam is multiply reflected between the concave mirrors (5 and 7), wherein at least one convex lens (9) is arranged on the optical path of the laser beam that is multiply reflected between the pair of concave mirrors (5 and 7) so that the central axis (C.sub.2) thereof is inclined with respect to the central axis (C.sub.1) of the concave mirrors (5 and 7), and an acute angle formed by the central axis (C.sub.2) of the convex lens (9) and the central axis (C.sub.1) of the concave mirrors (5 and 7) is equal to or less than a critical angle when the laser beam is emitted from the convex lens (9).

The present specification describes increasing the Brix degree, nutrient transport and density, and yields of cannabis crops through the application of photoacoustic resonance to a nutrient formulation. An activated nutrient solution is obtained by forming an unactivated nutrient solution and applying to the unactivated nutrient solution ultra-rapid impulses of modulated laser light, from one or more laser systems. An increase of at least 5% in the Brix degree of the crop, relative to an unactivated nutrient formulation, can be achieved. In addition, an increase of at least 5%, relative to an unactivated nutrient formulation, is seen with respect to nutrient density and crop yield through application of the activated nutrient solution.

The disclosure relates to a demethylation apparatus and a demethylation method wherein a terahertz wave of a first frequency band including a methylation resonance frequency is irradiated onto a methylated molecule to demethylate the methylated molecule, and to a cancer therapy apparatus including the demethylation apparatus and a cancer therapy method including the demethylation method.

A reactor for nanoparticle production comprising a main chamber including a first nozzle to which raw material gas is supplied, a lens housing connected to the main chamber in a fluidly movable manner and including a second nozzle for supplying flushing gas to the lens housing, a lens mounted on the lens housing, a light source for irradiating a laser, which passes through the lens to reach the raw material gas in the main chamber, and a hood for discharging nanoparticles generated in the main chamber. A cross-sectional area of at least a part of the lens housing decreases along a direction facing the main chamber.

The invention includes apparatus and methods for instantiating and quantum printing materials, such as elemental metals, in a nanoporous carbon powder.

The present disclosure relates to a system and method for synthesis of condensed nano-materials to at least one of create nanoparticles or modify existing nanoparticles. In one embodiment the system may have a source of liquid precursor, with the liquid precursor including a compound therein. A flow control element and a compression wave generating subsystem are also included. The flow control element is in communication with the source of the liquid precursor and creates a jet of liquid precursor. The compression wave generating subsystem drives a compression wave through at least a substantial portion of a thickness of the jet of liquid precursor to sufficiently compress the jet of liquid precursor, and to increase pressure and temperature of the jet of liquid precursor, to at least one of create nanoparticles or modify existing nanoparticles.

The invention relates to a method of producing a nanofluid which includes laser ablating a target on a surface of which a liquid is flowing. The method includes the step of moving the target and a laser beam relative to each other. The method further includes the step of moving the target relative to the laser beam such that the laser beam scans across the surface of the target in the X or Z direction when the laser beam is oriented in the Y direction and the target faces the laser beam.

The process describes the capability of solid-state metals to oxidize in water to produce hydrogen when stimulated by laser. The solid-state metals with an adherent surface layer of the oxide component is introduced into water or another suitable oxidizer. The metal-oxidizer reaction to form hydrogen is initiated and maintained by a laser periodically/continually ablating the metal. The energy, pulse duration and wavelength of the laser may be tailored to control the rate of reaction of the source material with the oxidizer, and thereby control the rate of formation of hydrogen. Application of energy produced by such method may include powering large scale commercial and residential energy companies, providing sustainable and continuous fuel for intergalactic missions, providing an alternative fuel sources for on-board hydrogen-powered vehicles and smaller scale applications such as emergency generators.

Systems and methods are provided for sending serialized data for an interactive message comprising a first session data item to a second computing device to render the interactive message using the first session data item and display the rendered interactive message comprising a first media content item associated with a first interactive object and receiving, from the second computing device, a second media content item associated with a second interactive object of the interactive message. The systems and methods further provided for generating a second session data item for the second interactive object of the interactive message, adding the second session data item to the serialized data, and sending the serialized data to a third computing device to render the interactive message using the serialized data and display the rendered interactive message comprising the first media content item and the second media content item.