A data receiver thread is continuously executed to receive in which signals indicating a fluid parameter. A predetermined time quantity of the signals is repeatedly buffered. Upon completion of the buffering of each predetermined time quantity of the signals, a data processing thread is initiated that executes on the just completed buffered predetermined time quantity of signals. Upon completion of each data processing thread, data from the just completed data processing thread is passed to a data plotting thread. Results of the data plotting thread are displayed on a portable electronic device while the data receiver thread is being executed.

An in-line holographic microscope can be used to analyze on a frame-by-frame basis a video stream to track individual colloidal particles' three-dimensional motions. The system and method can provide real time nanometer resolution, and simultaneously measure particle sizes and refractive indexes. Through a combination of applying a combination of Lorenz-Mie analysis with selected hardware and software methods, this analysis can be carried out in near real time. An efficient particle identification methodology automates initial position estimation with sufficient accuracy to enable unattended holographic tracking and characterization.

A method for evaluating a biological material for unassociated virus-like particles virus size having a particular epitope uses a fluorescent antibody stain specific for binding with the epitope and a fluid sample with the virus-size particles and fluorescent antibody stain is subjected to flow cytometry with identification of fluorescent emission detection events indicative of passage through a flow cell of a flow cytometer of unassociated labeled particles of virus size including such a virus-like particle and fluorescent antibody stain.

An immersion cytometry system (200, 250) having a primary focusing optic immersed in a fluid stream (209) containing suspended particles (212). The system includes a light source (202) configured to illuminate a sensing region in the fluid stream that includes a focus of the primary optic. Light scattered and/or fluoresced from suspended particles passing through the sensing region is focused by an external tube lens on an external detector. The primary optic in one embodiment is a ball lens. In some embodiments, one or more filter/beam splitters on the optical axis reflect a portion of the signal light towards corresponding detectors, each filter being configured to reflect a preselected waveband of light.

Fluid may be pumped within a microfluidic channel across a cell/particle sensor using a microscopic resistor. The microscopic resistor may be selectively actuated so as to heat the fluid within the microfluidic channel to a temperature below a nucleation energy of the fluid so as to regulate a temperature of the fluid for at least when the cell/particle sensor is sensing the fluid.

A microfluidic device that reads a colloidal mixture and separates the colloids based upon size and shape. and in the case of polymer colloids such as DNA, it reads patterns of markers attached to DNA. The combination of different separated fractions and DNA markers (it mapping) constitutes the physical code.

A kit and method for flow cytometry include a liquid dye concentrate for fluorescent staining of virus-size particles with a plurality of fluorogenic dyes in a liquid medium. The liquid dye concentrate includes a plurality of fluorogenic dyes and one or both of (i) the liquid medium comprising a liquid mixture including water and liquid phase organic material and (ii) disaccharide dissolved in the liquid medium.

A process for optically sorting a plurality of particles includes: providing a particle receiver; producing particles; receiving the particles by the particle receiver; receiving a light by the particle receiver; producing a standing wave optical interference pattern in an optical interference site of the particle receiver from the light; subjecting the particles to an optical gradient force from the standing wave optical interference pattern; deflecting the particles into a plurality of deflected paths to form the sorted particles from the particles; and propagating the sorted particles from the optical interference site through the deflected paths to optically sort the particles

Aspects of the present disclosure include systems for irradiating particles in a flow stream. Systems according to certain embodiments include a light source having a first laser configured for continuous irradiation of a flow stream and a second laser configured for irradiation of the flow stream in discrete intervals where each discrete interval of irradiation by the second laser is triggered by irradiation of a particle in the flow stream with the first laser. Methods for irradiating a sample in a flow stream with the subject light sources are also described. Computer readable storage medium for practicing the subject methods are provided. Kits having one or more lasers are also provided.

A sample analyzer with an optical detection device and a sample analysis method of the sample analyzer are disclosed. The optical detection device includes a fluid chamber, a light source and a light detector. The fluid chamber includes an illumination zone. An analyte flows through the illumination zone so as to form a sample stream. The light source illuminates the illumination zone to excite cell articles, reacted with a reagent, of the sample stream to emit a light signal. The light detector detects the fluorescent lights and transforms it into an electric signal. The light detector can include a silicon photomultiplier.