Solid particles are colored with a cationic dye and at least three calibration standards having different known mass concentrations of the colored particles are prepared. A digital analysis of the images of the calibration standards is carried out based on an additive RGB color model and intensity distribution profiles of red, green and blue colors are obtained for each calibration standard. A single norm function is selected to characterize quantitatively changes in the red, green and blue colors in all calibration standards. A single calibration curve is obtained by comparing values of the selected norm function for each calibration standard with a known mass concentration of the colored particles in this calibration standard. A suspension of the colored solid particles is injected through a porous medium sample and the sample is split into two parts along a suspension flow direction. A digital analysis of an image of the split of the porous medium sample is carried out based on the additive RGB color model and a two-dimensional intensity distribution of red, green and blue colors in the sample split is obtained. Reference intensities of red, green and blue colors are determined and based on the obtained two-dimensional intensity distribution of red, green and blue colors in the obtained image of the sample split, using the reference intensities of red, green and blue colors, the selected norm function and the obtained calibration curve a two-dimensional distribution of the mass concentration of the colored suspension solid particles is determined.

Solid particles are colored with a cationic dye and at least three calibration standards having different known mass concentrations of the colored particles are prepared. A digital analysis of the images of the calibration standards is carried out based on an additive RGB color model and intensity distribution profiles of red, green and blue colors are obtained for each calibration standard. A single norm function is selected to characterize quantitatively changes in the red, green and blue colors in all calibration standards. A single calibration curve is obtained by comparing values of the selected norm function for each calibration standard with a known mass concentration of the colored particles in this calibration standard. A suspension of the colored solid particles is injected through a porous medium sample and the sample is split into two parts along a suspension flow direction. A digital analysis of an image of the split of the porous medium sample is carried out based on the additive RGB color model and a two-dimensional intensity distribution of red, green and blue colors in the sample split is obtained. Reference intensities of red, green and blue colors are determined and based on the obtained two-dimensional intensity distribution of red, green and blue colors in the obtained image of the sample split, using the reference intensities of red, green and blue colors, the selected norm function and the obtained calibration curve a two-dimensional distribution of the mass concentration of the colored suspension solid particles is determined.

Functionalized fluorescent tracers, methods of making the tracers, and methods of using the tracers are provided. In some implementations, the fluorescent tracers include a functionalized fluorescent dye. The functionalized fluorescent dye includes an isothiocyanate-containing dye functionalized with a functional group that includes a primary amine. In some implementations, a method of tracing fluid flow in a subterranean formation includes mixing the functionalized fluorescent tracer into a fluid, flowing the tracer fluid into a subterranean formation, recovering a sample from a subterranean formation, and analyzing the sample for a fluorescent signal and a barcode functional group.

Functionalized fluorescent tracers, methods of making the tracers, and methods of using the tracers are provided. In some implementations, the fluorescent tracers include a functionalized fluorescent dye. The functionalized fluorescent dye includes an isothiocyanate-containing dye functionalized with a functional group that includes a primary amine. In some implementations, a method of tracing fluid flow in a subterranean formation includes mixing the functionalized fluorescent tracer into a fluid, flowing the tracer fluid into a subterranean formation, recovering a sample from a subterranean formation, and analyzing the sample for a fluorescent signal and a barcode functional group.

A vehicle with a LIDAR system, the LIDAR system having an emitter, receivers and a controller. The emitter emitting a Fourier series sum signal with each frequency given a substantially randomized phase. The receivers include a first receiver receiving a portion of the signal proximate to the LIDAR system; and a second receiver receiving a portion of a reflected signal, the reflected signal being a portion of the series sum signal after being reflected off of an object. The controller is coupled to the emitter and the receivers. The controller being configured to de-convolve the portion of the reflected signal received by the second receiver with the portion of the series sum signal received by the first receiver, and to estimate a distance to the object dependent upon an identified time delay between the portion of the reflected signal and the portion of the series sum signal.

Method and system is described to exploration and development hydrocarbon resources. The method involves operations for exploring and developing hydrocarbons with one or more unmanned vehicles. The unmanned vehicles are used to obtain one or more samples that may be used to identify hydrocarbon systems, such as hydrocarbon seeps.

Method and system is described to exploration and development hydrocarbon resources. The method involves operations for exploring and developing hydrocarbons with one or more unmanned vehicles. The unmanned vehicles are used to obtain one or more samples that may be used to identify hydrocarbon systems, such as hydrocarbon seeps.

A system includes a drillstring with an electromagnetic (EM) transmitter in a first borehole. The system also includes at least one fiber optic sensor deployed in a second borehole. The system also includes a processor configured to demodulate a data stream emitted by the EM transmitter based on EM field measurements collected by the at least one fiber optic sensor.

A system includes a drillstring with an electromagnetic (EM) transmitter in a first borehole. The system also includes at least one fiber optic sensor deployed in a second borehole. The system also includes a processor configured to demodulate a data stream emitted by the EM transmitter based on EM field measurements collected by the at least one fiber optic sensor.

A quasi-optical waveguide apparatus includes a waveguide having a chamber formed by a substantially cylindrical body and configured to propagate terahertz radiation. A plurality of windows are included wherein each window is coupled to a respective end of the waveguide such that the chamber is substantially sealed from the ambient atmosphere. The plurality of windows are transparent to the terahertz radiation.