Abstract: A dispenser for dispensing a selected volume of water at a specified temperature. The dispenser includes a source of water at an elevated temperature and a source of water at a lower temperature. An electronic controller determines the volume of water needed from each source in order to arrive at the selected volume and temperature. The dispenser uses a recirculation valve to circulate at least the elevated temperature water in the tank and in the outlet in order to ensure the temperature of the water is as expected throughout the system to achieve the specified temperature.

Abstract: A dispenser for dispensing a selected volume of water at a specified temperature. The dispenser includes a source of water at an elevated temperature and a source of water at a lower temperature. An electronic controller determines the volume of water needed from each source in order to arrive at the selected volume and temperature. The dispenser uses a recirculation valve to circulate at least the elevated temperature water in the tank and in the outlet in order to ensure the temperature of the water is as expected throughout the system to achieve the specified temperature.

Abstract: An alkali-metal dispenser to dispense highly pure rubidium in a high-vacuum environment while not negatively impacting the high-vacuum pressure level. The alkali-metal dispenser is operable in various vapor-deposition applications or to provide a highly pure elemental-alkali metal in cold-atom magneto-optical traps.

Abstract: A piezoelectric rotary optical mount including a clamp including a first hole to hold a hollow member, wherein a contact between the clamp and the hollow member generates a coefficient of friction; a bias element adjacent to the first hole to apply a force to control rotational movement of the hollow member by adjusting the coefficient of friction; and a piezoelectric element to actuate the bias element to apply the force. The clamp may include a housing body including a first end and a second end, wherein the first hole extends in a first axis through the housing body to accommodate the hollow member; a pair of elongated cutout regions extending from the first hole towards the second end to define the bias element; and a second hole adjacent to at least one of the cutout regions to accommodate the piezoelectric element.

Abstract: A magneto-optical trap chamber includes a first waveplate; a second waveplate; a first mirror positioned between the first waveplate and the second waveplate; a prism extending from the first mirror and positioned between the first waveplate and the second waveplate; and a second mirror positioned under the first waveplate, the second waveplate, the first mirror, and the prism. The second mirror may include a direct bonded copper (DBC) chip. The first waveplate and the second waveplate may be parallel to each other. The first mirror may be orthogonal to each of the first waveplate and the second waveplate. The prism may have a first end and a second end, wherein the first end is connected to the first mirror, and the second end is connected to the second mirror. The prism may extend from the first mirror to the second mirror at an acute angle.

Abstract: A dispenser for dispensing a selected volume of water at a specified temperature. The dispenser includes a source of water at an elevated temperature and a source of water at a lower temperature. An electronic controller determines the volume of water needed from each source in order to arrive at the selected volume and temperature. The dispenser uses a recirculation valve to circulate at least the elevated temperature water in the tank and in the outlet in order to ensure the temperature of the water is as expected throughout the system to achieve the specified temperature.

Abstract: An alkali-metal dispenser to dispense highly pure rubidium in a high-vacuum environment while not negatively impacting the high-vacuum pressure level. The alkali-metal dispenser is operable in various vapor-deposition applications or to provide a highly pure elemental-alkali metal in cold-atom magneto-optical traps.

Abstract: An alkali-metal dispenser to dispense highly pure rubidium in a high-vacuum environment while not negatively impacting the high-vacuum pressure level. The alkali-metal dispenser is operable in various vapor-deposition applications or to provide a highly pure elemental-alkali metal in cold-atom magneto-optical traps.

Abstract: A device for the positioning of an optical beam includes a housing and at least four prisms aligned for passing the optical beam therethrough, where each of the at least four prisms is movable relative to the housing. The device may also include one or more positioners engaged with the at least four prisms, the one or more positioners controllable to move the at least four prisms, where movement of the at least four prisms adjusts a position and an angle of the optical beam passed therethrough relative to an x-y plane.

Abstract: An alkali-metal dispenser to dispense highly pure rubidium in a high-vacuum environment while not negatively impacting the high-vacuum pressure level. The alkali-metal dispenser is operable in various vapor-deposition applications or to provide a highly pure elemental-alkali metal in cold-atom magneto-optical traps.

Abstract: A pharmaceutical combination comprising (a) a RTK inhibitor selected from the group consisting of compounds of Formula I or a tautomer thereof, compounds of Formula II or a tautomer thereof, compounds of Formula III or a tautomer thereof, a pharmaceutically acceptable salt of the compound, a pharmaceutically acceptable salt of the tautomer, or a mixture thereof; and (b) one or more anti-estrogen compounds, or a pharmaceutically acceptable salt thereof; such as tamoxifen, toremifene, fulvestrant, raloxifene or raloxifene hydrochloride; the uses of such combination in the treatment or prevention of proliferative diseases: and methods of treating a subject suffering from a proliferative disease; and methods of treating a subject suffering from a proliferative disease comprising administering a therapeutically effective amount of such combination.

Abstract: A cold-atom system has multiple vacuum chambers. One vacuum chamber includes an atom source. A fluidic connection is provided between that vacuum chamber and another vacuum chamber. The fluidic connection includes a microchannel formed as a groove in a substantially flat surface and covered by a layer of material.

Abstract: Cold-atom systems and methods of handling cold atoms are disclosed. A cold-atom system has multiple chambers and a fluidic connection between two of the chambers. One of these two chambers includes an atom source and the other includes an atom chip.

Abstract: A cold-atom system has multiple vacuum chambers. One vacuum chamber includes an atom source. A fluidic connection is provided between that vacuum chamber and another vacuum chamber. The fluidic connection includes a microchannel formed as a groove in a substantially flat surface and covered by a layer of material.

Abstract: Cold-atom systems and methods of handling cold atoms are disclosed. A cold-atom system has multiple chambers and a fluidic connection between two of the chambers. One of these two chambers includes an atom source and the other includes an atom chip.