Abstract: A chip may be programmed to emit and/or augment energy tuned to interact with bodily functions through transdermal contact. The chip may be programmed by using a pair of Tesla pancake coils, each coupled to a spherical electrode and driven to create an energetic field between the electrodes. Embodiments may include systems that include the programmed chip in a fabric body. The systems may be wearable so that the effects of the programmed chip may be applied to selected areas of the human body. Some embodiments may be useful for augmenting healing of ailments.

Abstract: A hologram chip may be programmed to emit and/or augment energy tuned to interact with bodily functions through transdermal contact. The chip may be programmed by using a pair of Tesla pancake coils, each coupled to a spherical electrode and driven to create an energetic field between the electrodes. The hologram chip may be in contact with a transmitter coil. A tuning medium may be in contact with a receiver coil. A wave function generator may drive the transmitter coil until it is in resonance with the receiver coil causing an energetic field to form between the spherical electrodes. The longitudinal waves passed from the transmitter side to the receiver side may be conducted through the receiver pancake coil and through the tuning medium, which in turn may transmit the natural frequencies/information of the tuning medium through the longitudinal waves to the hologram chip on the transmitter coil.

Abstract: A hologram chip may be programmed to emit and/or augment energy tuned to interact with bodily functions through transdermal contact. The chip may be programmed by using a pair of Tesla pancake coils, each coupled to a spherical electrode and driven to create an energetic field between the electrodes. Embodiments may include systems that include the programmed hologram chip in a fabric body. The systems may be wearable so that the effects of the programmed chip may be applied to selected areas of the human body. Some embodiments may be useful for augmenting healing of ailments.

Abstract: Diffractive optical elements and methods for their fabrication are disclosed. In one aspect, a diffractive optical element is disclosed, which comprises a polymeric substrate substantially transparent to at least one electromagnetic radiation wavelength, and a plurality of metallic inclusions distributed in said polymeric substrate according to a predefined pattern such that said inclusions can collectively diffract at least a portion of incident radiation having said at least one radiation wavelength.

Abstract: A food freshness card emits energy tuned to the natural frequency of fresh foods. The card may include a material programmed using scalar waves. The material may be a hologram. Information is embedded into the material via a setup that uses a wave function generator to produce resonant frequencies for the application and drive wave information from a transmitting electrode to a receiving electrode. The scalar waves between the electrodes may be subjected to a wave or field source modulating the resultant wave information received at the receiving electrode. A material placed on a receiving coil at the receiving electrode receives the resultant wave information programming the material to emit energy tuned to the natural frequencies of fresh foods. Food or liquid placed within an effective radius of the card is kept fresher by exposure to the energetic information emitted by the material.

Abstract: A vehicle stability control system operates by detecting a wheel speed potentially indicative of the presence of a mini-spare wheel at a wheel location of a vehicle with a wheel speed sensor and determines that a mini-spare tire is present responsive to the wheel speed remaining within a predefined band for predefined time. A threshold value that triggers action by a vehicle stability control system is adjusted to provide the mini-spare wheel with a value different than a wheel speed threshold value indicative of wheel slipping for a standard wheel.

Abstract: A raster arrangement includes at least one raster element of a first type and at least one raster element of a second type. Each raster element of the first type has a first bundle-influencing effect. Each raster element of the second type has a second bundle-influencing effect which is different from the first bundle-influencing effect. Each raster element of the first type is located in a first area of the raster arrangement. Each raster element of the second type is located in a second area of the raster arrangement which is different from the first area of the raster arrangement.

Abstract: A method of detecting for primary circuit loss of an electronic stability control system for a vehicle comprises checking that a lateral acceleration sensor is installed and working properly, a yaw sensor is installed and working properly, and a steering wheel angle sensor is installed and working properly. An absolute value of the lateral acceleration sensor is compared with a first pre-defined threshold, an absolute value of the yaw sensor is compared with a second pre-defined threshold, and an absolute value of the steering wheel angle sensor is compared with a third pre-defined threshold. It is determined that primary circuit loss detection is not required when any of the three sensors are equal to and above the respective pre-defined thresholds and that primary circuit loss detection is required when all of the three sensors are below the respective pre-defined threshold.

Abstract: A method and associated EUV lithography apparatus for determining the phase angle at a free interface (17) of an optical element (13) provided with a multilayer coating (16) that reflects EUV radiation and/or for determining the thickness (d) of a contamination layer (26) formed on the multilayer coating (16). The multilayer coating (16) is irradiated with EUV radiation, a photocurrent (IP) generated during the irradiation is measured, and the phase angle at the free interface (17) and/or the thickness (d) of the contamination layer (26) is determined on the basis of a predefined relationship between the phase angle and/or the thickness (d) and the measured photocurrent (IP). The measured photocurrent (IP) is generated from the entire wavelength and angle-of-incidence distribution of the EUV radiation impinging on the multilayer coating (16).

Abstract: A microlithography illumination system includes a first raster arrangement including a first plurality of bundle-forming raster elements arranged in or adjacent a first plane of the illumination system. The first plurality of bundle-forming raster elements is configured to generate a raster arrangement of secondary light sources. The illumination system also includes a transmission optics configured to superimpose transmission of the illumination light of the secondary light sources into the object field. The transmission optics includes a second raster arrangement comprising a second plurality of bundle-forming raster elements. The illumination system further includes a displacement device configured to displace a displaceable segment of the first raster arrangement relative to the second raster arrangement. The displaceable segment includes exactly one of the raster elements, a group of several raster elements, a raster column, a raster area, or several groups of raster elements.

Abstract: A food freshness card is disclosed which emits energy tuned to the natural frequency of fresh foods. The card may include a material programmed using scalar waves. The material may be a hologram. Information is embedded into the material via a setup that uses a wave function generator to produce resonant frequencies for the application and drive wave information from a transmitting electrode to a receiving electrode. The scalar waves between the electrodes may be subjected to a wave or field source modulating the resultant wave information received at the receiving electrode. A material placed on a receiving coil at the receiving electrode receives the resultant wave information programming the material to emit energy tuned to the natural frequencies of fresh foods. Food or liquid placed within an effective radius of the card is kept fresher by exposure to the energetic information emitted by the material.

Abstract: In one aspect, a device for generating triplet photons is disclosed, which includes a waveguide extending from a proximal end for receiving pump radiation to a distal end through which triplet photons generated via nonlinear interaction of the pump radiation with the waveguide exit the waveguide, where the waveguide is configured such that the triplet photons generated within the waveguide reach its distal end at a rate in a range of about 0.05 triplet photons/second/mW and 0.3 triplet photons/second/mW, e.g., in a range of about 0.1 triplet photons/second/mW to about 0.2 triplet photons/second/mW.

Abstract: The present teachings are generally directed to devices and methods for triplet photons generations, and in particular to on-chip integrated sources for generating direct triplet entangled photons.

Abstract: A hologram chip may be programmed to emit and/or augment energy tuned to interact with bodily functions through transdermal contact. The chip may be programmed by using a pair of Tesla pancake coils, each coupled to a spherical electrode and driven to create an energetic field between the electrodes. The hologram chip may be in contact with a transmitter coil. A tuning medium may be in contact with a receiver coil. A wave function generator may drive the transmitter coil until it is in resonance with the receiver coil causing an energetic field to form between the spherical electrodes. The longitudinal waves passed from the transmitter side to the receiver side may be conducted through the receiver pancake coil and through the tuning medium, which in turn may transmit the natural frequencies/information of the tuning medium through the longitudinal waves to the hologram chip on the transmitter coil.

Abstract: There are described 6?-phenyl-2,2?-bipyridine-3-carboxylic acid derivatives of the general formula (I) as herbicides. In this formula (I), R1 to R5 are radicals such as hydrogen, organic radicals such as alkyl, and other radicals such as halogen, nitro, cyano and formyl.

Abstract: What is described are compounds of the general formula (I) and agrochemically acceptable salts thereof and their use in the field of crop protection.

Abstract: An illumination system for microlithography serves to illuminate an illumination field with illumination light of a primary light source. A first raster arrangement has bundle-forming first raster elements which are arranged in a first plane of the illumination system or adjacent to the plane. The first raster arrangement serves to generate a raster arrangement of secondary light sources. A transmission optics serves for superimposed transmission of the illumination light of the secondary light sources into the illumination field. The transmission optics has a second raster arrangement with bundle-forming second raster elements. In each case one of the raster elements of the first raster arrangement is allocated to one of the raster elements of the second raster arrangement for guiding a partial bundle of an entire bundle of illumination light. The first raster arrangement for example has at least two types (I, II, III) of the first raster elements which have different bundle-influencing effects.

Abstract: A microlithographic illumination system can include a light distribution device that can generate a two-dimensional intensity distribution in a first illumination plane. A first raster array of optical raster elements can generates a raster array of secondary light sources. A device with an additional optical effect can be disposed spatially adjacent to the two raster arrays. The device can be configured as an illumination angle variation device. The device can influence the intensity and/or the phase and/or the beam direction of the illumination light. The influence can be such that an intensity contribution of raster elements to the total illumination intensity can vary across the illumination field. This can enable the illumination intensity to be influenced across the illumination field in a defined manner with respect to the total illumination intensity and/or with respect to the intensity contributions from different directions of illumination.

Abstract: A method for operating a projection exposure tool for microlithography is provided. The projection exposure tool includes an optical system which includes a number of optical elements which, during an imaging process, convey electromagnetic radiation. All of the surfaces of the optical elements interact with the electromagnetic radiation during the imaging process to form an overall optical surface of the optical system.

Abstract: A raster arrangement includes first and second types of raster elements which have different bundle-influencing effects. There is a distance step between a first raster area and a second raster area. The first raster area comprises a raster element of the first raster element type. The second raster area includes a raster element of the second raster element type. The raster arrangement is configured to be used in a microlithography illumination system.