A check-valve comprises: a thin sheet and a thick sheet; flow paths for flowing fluid which are formed by penetrating the thin sheet and the thick sheet; a flow-in chamber and a flow-out chamber which are connected to the flow paths; a partition sheet which is bonded to the thin sheet and the thick sheet while being sandwiched therebetween, and has a flexible inner flange which projects in cavities of the flow-in chamber and the flow-out chamber and does not close the flow-out valve chamber by flexing toward the flow-out valve chamber in a normal flow, and closes the flow-in valve chamber by flexing toward the flow-in valve chamber in a reverse flow; and a through-pass hole which is opened at the partition sheet and connects the both valve chambers.

A method for detecting electromagnetic waves derived from bacterial DNA, including extracting and purifying nucleic acids from a sample; diluting the extracted purified nucleic acids in an aqueous solvent; measuring a low frequency electromagnetic emission over time from the diluted extracted purified nucleic acids in an aqueous solvent; performing a signal analysis of the low frequency electromagnetic emission over time; and producing an output, based on the signal analysis, in dependence on the DNA in the sample. The DNA may be extracted from at least one of blood, feces, urine, saliva, tears, seminal fluid, sweat, seminal and vaginal fluids of a patient, or water to determine, e.g., potability. The samples may be frozen. The extracting and purifying may include diluting the sample with an aqueous buffer and mixing; degrading proteins in the diluted sample; precipitating DNA from the buffer solution; and resuspending the precipitated DNA in an aqueous solution.

The present invention relates to a method and apparatus intended for the detection of low frequency electric waves that can be extracted from water, organic liquids and biological matter. This field phenomenon, that we here refer to here as a bioharmonic, is an active frequency, or harmonically related series of frequencies, that are a result of a dynamic interplay of natural processes including physical, chemical and electromagnetic interactions. We have discovered that these interactions influence the organization of signal waveform characteristics at very low frequencies. The apparatus produces a low frequency electrical wave that is coupled to a liquid or solid sample by way of a coupling electrode having a very high impedance. As the detected signal also displays field properties, the electrode does not need to be in contact with the sample in order to extract a unique signal. The resultant signal is rectified and passed through a logic gate where it is conditioned using a low pass filter on the gate output stage before amplification. A darlington type transistor is used to amplify the signal by a minimum factor of twenty thousand.

A method for filtering matter waves (MW) from a composite particle beam, comprising: obtaining the composite particle beam from a first particle path, the beam comprising a matter-wave-energy (an MWE) particle component and a matter wave (an MW) component, wherein the MW component does not correspond to the MWE particle component; directing the composite particle beam toward a unit having a distribution of a non-uniform spatial field; tilting the MWE particle component of the composite particle beam toward a second path away from the first path; generating an output beam of the MW component along the first path going through the non-uniform spatial field; and receiving the output beam of the MW component for processing in a subsequent step.

A system for analyzing signals produced from a sample is described, where the system includes at least one magnetometer, where the magnetometer is capable of detecting magnetic fields produced by a sample. The magnetometer is positioned proximate to the sample, and is miniaturized (e.g. has a size less than 6 cm per side). A noise producing component is configured to uniformly produce noise surrounding the sample and the magnetometer, where the noise produced is capable of inducing stochastic resonance in the sample to amplify characteristic signals of the sample. At least one shielding structure electromagnetically shields the sample and the first magnetometer from external electromagnetic radiation

Disclosed herein are systems and methods for providing a portable magnetic field therapy system for inducing an effect of a chemical or biochemical agent to a mammalian subject, such as for the treatment of diseases and adverse health conditions.

Detecting electromagnetic waves derived from bacterial DNA, by extracting and purifying nucleic acids from a sample; diluting the extracted purified nucleic acids in an aqueous solvent; measuring a low frequency electromagnetic emission over time from the diluted extracted purified nucleic acids in an aqueous solvent; performing a signal analysis of the low frequency electromagnetic emission over time; and producing an output, based on the signal analysis, in dependence on the DNA in the sample. The DNA may be extracted from at least one of blood, feces, urine, saliva, tears, seminal fluid, sweat, seminal and vaginal fluids of a patient, or water to determine, e.g., potability. The samples may be frozen. The extracting and purifying may include diluting the sample with an aqueous buffer and mixing; degrading proteins in the diluted sample; precipitating DNA from the buffer solution; and resuspending the precipitated DNA in an aqueous solution.

A non-invasive measuring/diagnosis/treatment apparatus and method includes an MWE particle source for emitting particles, the particles comprises a first particle beam and a second particle beam with enclosed space at a partial vacuum and low humidity environment. A first beam splitter for making MW of a first particle beam and MWE of a second particle beam toward a first path, and making MW of the second particle beam and MWE of the first particle beam toward a second path. An MW filter having a distribution of a non-uniform spatial field located at the first path for tilting the MWE of the second particle beam and let the MW of the first particle beam transmit a sample located on the first path and a first detector for detecting a plurality of peaks or valleys of the first interference pattern.

An apparatus and method for rapidly evaluating an age of an object uses energy information technology, which senses a magnetic field wave emanating from the object (i.e., an artifact), converts energy information contained within the magnetic field wave into electrical signals, and derives meaningful information (i.e., the age of the artifact) from those electrical signals. The apparatus includes a magnetic-field signal detector, a signal input circuit, a sensitivity adjustment circuit, an integrated timing circuit, an audio adjustment circuit, an audio generating circuit, a signal feedback circuit, a computing system, a speaker system, and a main housing. The circuitry portions are electronically connected amongst each other and are mounted within the main housing.

Systems, methods and apparatus are provided through which in some implementations an experimental apparatus to modify gravity includes an electrically conducting dome, three or more electrically conducting coils attached to the interior of the electrically conducting dome, and a power source electrically coupled to the electrically conducting coils, the electrically conducting coils configured to generate rotating electromagnetic fields that form a Poynting vector vortex, that produces a gravity force that is perpendicular to the Poynting vector vortex.