Abstract: Hyper-Heisenberg scaling quantum imaging techniques that pass an idler photon of each entangled photon pair three times through an idler objective pair and pass a signal photon of each entangled photon pair at least once through a signal objective pair and use measurements of coincidence detection to yield a coincidence image with spatial resolution of about four times that of classical imaging.

Abstract: Provided are a wireless auxiliary stream device, and screen projection method and system based on a wireless auxiliary stream device. The wireless auxiliary stream device is connected to a terminal device and an extended display device.

Abstract: Among the various aspects of the present disclosure is the provision of systems and methods of imaging using photoacoustic computed tomography through an ergodic relay having an integrated single-element ultrasonic transducer.

Abstract: One aspect of the present disclosure relates to systems and methods that can be used for super-sensitivity multiphoton frequency-domain fluorescence lifetime imaging microscopy (MPM-FD-FLIM). One or more laser light sources can deliver excitation light with an intensity modulated by a periodic function to a sample, which includes a fluorophore concentration. A receiver can receive a fluorescence signal emitted from the fluorophore concentration over a time period. A computing device can transform the fluorescence signal to the frequency domain and measure a fluorescence lifetime associated with the sample in the frequency domain based on a DC component and at least one higher harmonic component generated by non-linear optical mixing of the modulated excitation light. Using the DC component and the at least one higher harmonic component can increase the sensitivity of an image created by the MPM-FD-FLIM system.

Abstract: A microscopy method and system includes obtaining a plurality of raw fluorescence images, respective ones of the plurality of raw fluorescence images obtained by exciting a sample using a light source at a respective irradiance value in a weak saturation region of the sample, and capturing the respective raw fluorescence image; applying a plurality of weights to the plurality of raw fluorescence images in a one-to-one correspondence so as to generate a plurality of weighted fluorescence images, wherein a respective weight is based on the respective irradiance value at which the corresponding raw fluorescence image was obtained; and linearly combining the plurality of weighted fluorescence images, thereby generating the output image having a resolution greater than a diffraction limit. Respective raw fluorescence images correspond to irradiance values different from one another.

Abstract: One aspect of the present disclosure relates to systems and methods that can be used for super-sensitivity multiphoton frequency-domain fluorescence lifetime imaging microscopy (MPM-FD-FLIM). One or more laser light sources can deliver excitation light with an intensity modulated by a periodic function to a sample, which includes a fluorophore concentration. A receiver can receive a fluorescence signal emitted from the fluorophore concentration over a time period. A computing device can transform the fluorescence signal to the frequency domain and measure a fluorescence lifetime associated with the sample in the frequency domain based on a DC component and at least one higher harmonic component generated by non-linear optical mixing of the modulated excitation light. Using the DC component and the at least one higher harmonic component can increase the sensitivity of an image created by the MPM-FD-FLIM system.

Abstract: A microscopy method and system includes obtaining a plurality of raw fluorescence images, respective ones of the plurality of raw fluorescence images obtained by exciting a sample using a light source at a respective irradiance value in a weak saturation region of the sample, and capturing the respective raw fluorescence image; applying a plurality of weights to the plurality of raw fluorescence images in a one-to-one correspondence so as to generate a plurality of weighted fluorescence images, wherein a respective weight is based on the respective irradiance value at which the corresponding raw fluorescence image was obtained; and linearly combining the plurality of weighted fluorescence images, thereby generating the output image having a resolution greater than a diffraction limit. Respective raw fluorescence images correspond to irradiance values different from one another.

Abstract: A circuit, where a first end of a resistive random access memory (RRAM) included in the circuit includes a first end of the circuit, and a second end of the RRAM is coupled to a first end of a first switch and a first end of a second switch, a second end of the first switch includes a second end of the circuit, and a first control end of the first switch and a second control end of the second switch are configured to make the first switch closed and the second switch open at the same time. Therefore, a working status of the RRAM is flexibly controlled.

Abstract: A circuit, where a first end of a resistive random access memory (RRAM) included in the circuit includes a first end of the circuit, and a second end of the RRAM is coupled to a first end of a first switch and a first end of a second switch, a second end of the first switch includes a second end of the circuit, and a first control end of the first switch and a second control end of the second switch are configured to make the first switch closed and the second switch open at the same time. Therefore, a working status of the RRAM is flexibly controlled.

Abstract: A precursor tape casting method is one in which chemical precursors are converted into a final chemical phase from green tapes to products. Because chemical precursors are employed rather than the final powder materials, sintering is not required to form the material. Lower annealing temperatures instead of high temperature sintering allow the formation of grains of about 1 to about 100 nanometers in the final material. In addition, when the final material is a magnetic/insulator composite, improved magnetic properties may be obtained.

Abstract: Thick film magnetic/insulating nanocomposite materials, with significantly reduced core loss, and their manufacture are described. The insulator coated magnetic nanocomposite comprises one or more magnetic components, and an insulating component. The magnetic component comprises nanometer scale particles (about 1 to about 100 nanometers) coated by a thin-layered insulating phase. While the intergrain interaction between the immediate neighboring magnetic nanoparticles separated by the insulating phase provides the desired soft magnetic properties, the insulating material provides high resistivity, which reduces eddy current loss.

Abstract: A precursor tape casting method is one in which chemical precursors are converted into a final chemical phase from green tapes to products. Because chemical precursors are employed rather than the final powder materials, sintering is not required to form the material. Lower annealing temperatures instead of high temperature sintering allow the formation of grains of about 1 to about 100 nanometers in the final material. In addition, when the final material is a magnetic/insulator composite, improved magnetic properties may be obtained.

Abstract: Thick film magnetic/insulating nanocomposite materials, with significantly reduced core loss, and their manufacture are described. The insulator coated magnetic nanocomposite comprises one or more magnetic components, and an insulating component. The magnetic component comprises nanometer scale particles (about 1 to about 100 nanometers) coated by a thin-layered insulating phase. While the intergrain interaction between the immediate neighboring magnetic nanoparticles separated by the insulating phase provides the desired soft magnetic properties, the insulating material provides high resistivity, which reduces eddy current loss.

Abstract: A series of bulk-size magnetic/insulating nanostructured composite soft magnetic materials with significantly reduced core loss and its manufacturing technology. This insulator coated magnetic nanostructured composite is comprises a magnetic constituent, which contains one or more magnetic components, and an insulating constituent. The magnetic constituent is nanometer scale particles (1-100 nm) coated by a thin-layered insulating phase (continuous phase). While the intergrain interaction between the immediate neighboring magnetic nanoparticles separated by the insulating phase (or coupled nanoparticles) provide the desired soft magnetic properties, the insulating material provides the much demanded high resistivity which significantly reduces the eddy current loss. The resulting material is a high performance magnetic nanostructured composite with reduced core loss.

Abstract: A series of bulk-size magnetic/insulating nanostructured composite soft magnetic materials with significantly reduced core loss and its manufacturing technology. This insulator coated magnetic nanostructured composite is comprises a magnetic constituent, which contains one or more magnetic components, and an insulating constituent. The magnetic constituent is nanometer scale particles (1-100 nm) coated by a thin-layered insulating phase (continuous phase). While the intergrain interaction between the immediate neighboring magnetic nanoparticles separated by the insulating phase (or coupled nanoparticles) provide the desired soft magnetic properties, the insulating material provides the much demanded high resistivity which significantly reduces the eddy current loss. The resulting material is a high performance magnetic nanostructured composite with reduced core loss.

Abstract: A method of magnetic annealing a crystalline or nanocrystalline magnetic alloy under application of a dynamic magnetic field, i.e., an external magnetic field whose direction undergoes a periodic change in a plane, at an elevated temperature, preferably in a range of from about 300° C. to about 800° C. The applied dynamic magnetic field preferably has a maximum strength in a range of from about 1 to about 1000 Oersteds and is one of a rotation magnetic field, an elliptic-polarized magnetic field, an oscillation magnetic field, and a pair of pulsed magnetic fields.