The disclosure relates to a flow cytometer arrangement, in which a sample is mixed with a colorant by means of two pumps and the mixture is introduced together with a sheath flow into a flow cell.

A particle control method configured prevent an extremely small quantity of particles descending on a stream of a laminar flow in a clean zone through which the laminar flow flows (as in a RABS or isolator device) from descending to a specific position or to guide the particles so as to have them descend to a specific position by controlling movement of the particles.

[Solution]

A particle descent position is separated away from a board surface of the oscillation board by using an acoustic radiation pressure generated by prompting ultrasonic vibration of the oscillation board disposed with a board surface substantially in parallel with a flow direction of the laminar flow. Moreover, by using a node of a standing wave field generated by prompting the ultrasonic vibration of two oscillation boards disposed with the board surfaces faced with each other, the particle is guided to a direction of a node of a standing wave field. Moreover, by using a focal point of the ultrasonic wave generated by prompting the ultrasonic wave of four oscillation boards, that is, two pairs disposed with the board surfaces faced with each other, the particle is guided to the focal point of the ultrasonic wave.

A particle detector that includes a housing defining a chamber, and an air stream injector, producing an airstream with entrained particles, in the chamber. A light source produces a light beam that intersects with and is wider than the air stream. A light detection assembly detects light generated by scattering of the light beam, by particles in the air stream. A digitizer produces a sequence of scattering digital values, each representing light detected per a first unit of time duration. Additionally, a summing assembly produces a sequence of summed scattering digital values, each equaling a sum of a sequential set of n of the digital values, and wherein successive summed digital values are offset by a the first unit of time duration and overlap by n1 of the first units of time duration with a nearest neighbor. Finally, a detection assembly processes the summed scattering digital values to detect particles.

A particle control method is provided which can prevent an extremely small quantity of particles descending on a stream of a laminar flow in a clean zone through which the laminar flow flows as in a RABS or isolator device from descending to a specific position or can guide it so as to descend to the specific position by controlling movement of the particles. A particle descent position is separated away from a board surface of the oscillation board by using an acoustic radiation pressure generated by prompting ultrasonic vibration of the oscillation board disposed with a board surface substantially in parallel with a flow direction of the laminar flow.

Disclosed herein is a system of measuring contamination of a water sample. The system may include a mixture container comprising a mixture chamber, a sample opening, and a reagent opening. Further, the system may include a light emitting device disposed proximal to the mixing chamber. Further, the system may include a light sensing device disposed proximal to the mixing chamber. Further, the system may include a processing device communicatively coupled with each of the light emitting device and the light sensing device. Further, the processing device may be configured for analyzing the at least one predetermined attribute and the at least one attribute. Further, the system may include a storage device configured for storing the notification. Further, the system may include a presentation device communicatively coupled with the processing device. Further, the presentation device is configured for presenting the notification.

Various methods, devices, and systems for determining the concentration of microorganisms in a sample and determining the susceptibility of such microorganisms to one or more antibiotics or other types of anti-infectives are disclosed herein. More specifically, methods for quantifying microorganisms based on redox reactions are disclosed along with systems and devices for quantifying such microorganisms using certain oxidation reduction potential (ORP) sensors. Moreover, methods for determining the susceptibility and the degree of susceptibility of microorganisms to one or more anti-infectives are disclosed along with multiplex systems for such assays.

A mold sensor include a housing that defines an enclosed chamber in which a nutrient-treated substrate is positioned. The mold sensor includes a substrate advancement mechanism that is configured to selectively move the substrate to expose a surface of the substrate within the chamber. The mold sensor includes a sensor configured to detect mold growth on the substrate within the chamber.

A method and system of measuring the size distribution of particles within dilute colloids, for example, through variation of the minimum detected size of aerosolized colloid particles. The method of determining the size distribution of particles in a fluid, involves forming a stream of aerosol droplets of the fluid, the droplets containing particles and dissolved material evaporating the droplets to generate particles, and measuring the concentration of particles by varying a detection threshold. A system or apparatus for determining the size distribution of particles in a fluid, includes a droplet former for forming a stream, of aerosol droplets of the fluid, the droplets containing particles and dissolved material, and a condensation particle detector for evaporating the droplets to generate particles and for measuring the concentration of particles, the condensation particle detector having a variable detection threshold.

A cassette for use in concentrating matter in a sample suspension, the cassette comprising a housing having a support and an enclosed sample-receiving channel, the enclosed sample-receiving channel having an upper portion and a base connected by at least two walls; in which the upper portion is configured to have a width less than a width of the base and a depth greater than 400 m.

The present disclosure provides a self-propelled pathogen detection device in which a place where a pathogen is highly likely to be present in a space such as an inside of a facility is allowed to be configured preferentially to be a target region of detection. The self-propelled pathogen detection device according to the present disclosure comprises a housing; a detection part for detecting a pathogen; a movement mechanism for moving the housing; a position acquirement part for acquiring position information representing a current position of the housing in a space; and a control part which determines a target region in the space on the basis of traffic line information on a person in the space, and controls the movement mechanism to move the housing in the target region on the basis of the position information. The detection part detects the pathogen in the target region.