An annular fluidic device includes a closed annular tube, wherein the tube includes at least one portion of transparent wall and contains a rigid torus bathed in a fluid filling the internal volume of the tube, in that the torus is arranged to be movable in the tube, and wherein at least one permanently polarised magnetic element integral with the torus allows it to undergo a moment of force causing it to be aligned in the direction of the external magnetic vector. A watch case can include this device.

An energy beam profiler and calorimeter (EPC) is disclosed. The EPC includes a target board having a front surface and a back surface, a first plurality of oscillating heat pipes arranged as columns on a first plate, and a second plurality of oscillating heat pipes arranged as rows on a second plate. The target board is configured to receive an impinging energy beam at the front surface of the target board, and the first plate and second plate are adjacent to and in thermal communication with the back surface of the target board.

An energy beam profiler and calorimeter (EPC) is disclosed. The EPC includes a target board having a front surface and a back surface, a first plurality of oscillating heat pipes arranged as columns on a first plate, and a second plurality of oscillating heat pipes arranged as rows on a second plate. The target board is configured to receive an impinging energy beam at the front surface of the target board, and the first plate and second plate are adjacent to and in thermal communication with the back surface of the target board.

The present system and method allow for the detection and diagnosis of abrupt changes of a device operating condition using a sensor array disposed in the coolant where the device is located. The purpose of the sensor array is to identify, in real time, abrupt changes quickly and detect the location of the incident. It may be used, for example, for quench detection of superconducting cables and magnets. This system and method are not only limited to use with superconducting conductors such as magnets, power transmission cables, SMES, MRI, motors and generators, but could also be used for any electric devices disposed in liquid or gas. It can also be used for a liquid level meter. Further, this system and method are not limited to low temperature devices, but may also be used in room temperature or elevated higher temperature devices disposed in gas and/or liquid.

The present system and method allow for the detection and diagnosis of abrupt changes of a device operating condition using a sensor array disposed in the coolant where the device is located. The purpose of the sensor array is to identify, in real time, abrupt changes quickly and detect the location of the incident. It may be used, for example, for quench detection of superconducting cables and magnets. This system and method are not only limited to use with superconducting conductors such as magnets, power transmission cables, SMES, MRI, motors and generators, but could also be used for any electric devices disposed in liquid or gas. It can also be used for a liquid level meter. Further, this system and method are not limited to low temperature devices, but may also be used in room temperature or elevated higher temperature devices disposed in gas and/or liquid.

The present system and method allow for the detection and diagnosis of abrupt changes of a device operating condition using a sensor array disposed in the coolant where the device is located. The purpose of the sensor array is to identify, in real time, abrupt changes quickly and detect the location of the incident. It may be used, for example, for quench detection of superconducting cables and magnets. This system and method are not only limited to use with superconducting conductors such as magnets, power transmission cables, SMES, MRI, motors and generators, but could also be used for any electric devices disposed in liquid or gas. It can also be used for a liquid level meter. Further, this system and method are not limited to low temperature devices, but may also be used in room temperature or elevated higher temperature devices disposed in gas and/or liquid.

The present system and method allow for the detection and diagnosis of abrupt changes of a device operating condition using a sensor array disposed in the coolant where the device is located. The purpose of the sensor array is to identify, in real time, abrupt changes quickly and detect the location of the incident. It may be used, for example, for quench detection of superconducting cables and magnets. This system and method are not only limited to use with superconducting conductors such as magnets, power transmission cables, SMES, MRI, motors and generators, but could also be used for any electric devices disposed in liquid or gas. It can also be used for a liquid level meter. Further, this system and method are not limited to low temperature devices, but may also be used in room temperature or elevated higher temperature devices disposed in gas and/or liquid.

An energy beam profiler and calorimeter (EPC) is disclosed. The EPC includes a target board having a front surface and a back surface, a first plurality of oscillating heat pipes arranged as columns on a first plate, and a second plurality of oscillating heat pipes arranged as rows on a second plate. The target board is configured to receive an impinging energy beam at the front surface of the target board, and the first plate and second plate are adjacent to and in thermal communication with the back surface of the target board.

An energy beam profiler and calorimeter (EPC) is disclosed. The EPC includes a target board having a front surface and a back surface, a first plurality of oscillating heat pipes arranged as columns on a first plate, and a second plurality of oscillating heat pipes arranged as rows on a second plate. The target board is configured to receive an impinging energy beam at the front surface of the target board, and the first plate and second plate are adjacent to and in thermal communication with the back surface of the target board.

An annular fluidic device includes a closed annular tube, wherein the tube includes at least one portion of transparent wall and contains a rigid torus bathed in a fluid filling the internal volume of the tube, in that the torus is arranged to be movable in the tube, and wherein at least one permanently polarised magnetic element integral with the torus allows it to undergo a moment of force causing it to be aligned in the direction of the external magnetic vector. A watch case can include this device.