Abstract: A closed cycle cryocooler is thermally connected to an elongated, cup-shaped sample well and cools down the sample well. Gaseous helium at a relatively low pressure is introduced into the sample well so that, as the sample well is cooled by the cryocooler, the gas in the sample well is also cooled. A sample is attached to a sample stick assembly which is then lowered into the sample well where the sample is cooled by the cooled gas to carryout experiments at low temperature. The sample stick assembly is mechanically attached to the spectrometer magnets and a flexible rubber bellows connects the sample stick assembly to the sample well so that vibration generated by the cryocooler is not transferred to the sample.

Abstract: A carrier for a sample of highly polarized material includes a shell having a radially exterior surface and a radially interior surface, and a sample of highly polarized material interiorly adjacent to the radially interior surface. The shell may be substantially cylindrical, and may be constructed from a magnetic or non-magnetic material. The sample of highly polarized material may comprise a methyl rotor group material. The sample of highly polarized material may comprise pyruvic acid or an acetic acid. The sample of highly polarized material may be co-axial with the cylindrical shell. The sample of highly polarized material may be bonded or frozen to the radially interior surface of the shell. The carrier may further comprise a wad of material that forms a volume and contacts an axially proximate end of at least one of the shell or the sample.

Abstract: A sample polarization system comprises an input stage that includes a sample input port configured and arranged to receive and to provide a sample molecule carrier, and cool the sample molecule carrier from a first temperature to a second temperature as it travels along a length of the input stage, and provides the sample molecule carrier at a input stage output. A closed volume having an interior receives the sample molecule carrier from the input stage output and holds a plurality of sample molecule carriers in the high magnetic field created by a magnet adjacent to the closed volume, and outputs the sample molecule carrier from a closed volume output port.

Abstract: Apparatus and method for performing depth sectioned fluorescence imaging of a turbid sample including a fluorescent turbid medium, uses an apparatus for quantitative modulated fluorescence imaging, the apparatus including projection optics with a first optical axis, to expose the turbid sample to a periodic pattern of excitation radiation to provide depth-resolved discrimination of fluorescent structures within the turbid medium; an image capture module, including a second optical axis and a detection beam path, to receive a data image from the sample; and a signal processor to transform the data image from the sample, spatially filter the transformed data image from the sample, and reconstruct the filtered, transformed data image from the sample.

Abstract: A method of providing a material sample in a state favorable to retaining spin polarization includes cooling a material sample from a temperature above a freezing point of the material sample down to a second temperature below the freezing point of the material sample; maintaining the sample at about the second temperature for a period of about several hours; and reducing temperature of the material sample to a third temperature lower than the second temperature to provide the material sample in a state favorable to retaining spin polarization, where the steps of cooling, maintaining and reducing are performed in the absence of an adulterant material. The method of providing a sample of pyruvic acid in a state favorable to retaining spin polarization may include cooling the sample of pyruvic acid in the absence of an adulterant material from a temperature above a freezing point of the sample of pyruvic acid down to less than about 200 Kelvin to provide the sample.

Abstract: A method is long observation based selective homonuclear decoupling includes acquiring one of CO or CA time domain signals during rotor synchronized breaks between decoupling pulses.

Abstract: A frame-sequential multiwavelength imaging system comprises a wavelength switching device for producing a repeated series of different wavelength profiles, a detector for detecting the dynamic scene and a signal processing unit for synthesizing a dynamic multiwavelength image of the dynamic scene. The signal processing unit may comprise at least one input device at least one logic device and at least one output device. The system can be used in a method to perform multiwavelength imaging of a dynamic scene, typically for surgical purposes.

Abstract: A monitoring cell, used to perform a measurement in an NMR spectrometer of a reaction fluid produced by a reaction vessel, has a body having inlet and outlet transport coaxial capillaries for transporting the reaction fluid between the body and the reaction vessel. Cooling lines are also positioned coaxially with the transport capillaries to transport cooling liquid between the body and the reaction vessel. The cell further has a hollow sample probe for insertion into the NMR spectrometer and a coupler section that removably connects the sample probe to the body so that the inlet transport capillary extends through the body into the interior of the sample probe and the outlet transport capillary is sealed to the sample probe to allow reaction fluid that enters the sample probe via the inlet transport capillary to exit the sample probe via the outlet transport capillary.

Abstract: A multiple resonance sample coil for a magic angle spinning nuclear magnetic resonance probe is comprised of a solenoid coil that resonates at low frequencies and a resonator that resonates at high frequencies. The ends of the low frequency solenoid coil are electrically connected to the high frequency resonator to eliminate arcing and allow the solenoid coil to extend the full width of the resonator. In some embodiments, the high frequency resonator is constructed from the outermost turns of the solenoid coil in the form of a birdcage resonator. In another embodiment, the solenoid coil is electrically connected to one turn of the resonator and the other turn is used as part of a trap to shunt the resonator at low frequencies.

Abstract: An imaging system and method for imaging an immobilized object. The imaging system includes a support member adapted to receive the object in an immobilized state. The system also includes means for imaging the immobilized object in various imaging modes to capture images of the object. The imaging system further includes a movable phosphor screen. The phosphor screen is adapted to be movable without moving the immobilized object and support member.

Abstract: A monitoring cell, used to perform a measurement in an NMR spectrometer of a reaction fluid produced by a reaction vessel, has a body having inlet and outlet transport coaxial capillaries for transporting the reaction fluid between the body and the reaction vessel. Cooling lines are also positioned coaxially with the transport capillaries to transport cooling liquid between the body and the reaction vessel. The cell further has a hollow sample probe for insertion into the NMR spectrometer and a coupler section that removably connects the sample probe to the body so that the inlet transport capillary extends through the body into the interior of the sample probe and the outlet transport capillary is sealed to the sample probe to allow reaction fluid that enters the sample probe via the inlet transport capillary to exit the sample probe via the outlet transport capillary.

Abstract: A torsional support apparatus is disclosed for craniocaudal rotation of test animals to enable multiple-view imaging. The animal is supported in a U-shaped loop of optically transparent material and the loop is moved to apply torsion to the animal to rotate it about its craniocaudal axis. Methods of imaging also are disclosed that use the torsional support technique.

Abstract: A method of providing a material sample in a state favorable to retaining spin polarization includes cooling a material sample from a temperature above a freezing point of the material sample down to a second temperature below the freezing point of the material sample; maintaining the sample at about the second temperature for a period of about several hours; and reducing temperature of the material sample to a third temperature lower than the second temperature to provide the material sample in a state favorable to retaining spin polarization, where the steps of cooling, maintaining and reducing are performed in the absence of an adulterant material. The method of providing a sample of pyruvic acid in a state favorable to retaining spin polarization may include cooling the sample of pyruvic acid in the absence of an adulterant material from a temperature above a freezing point of the sample of pyruvic acid down to less than about 200 Kelvin to provide the sample.

Abstract: The present invention relates to a loaded particle comprising at least one fluorescent dye, and in particular, a fluorescent dye with a large Stokes shift. The invention further relates to a method for producing an loaded latex particle, loaded with a fluorescent dye having a large stokes shift. In addition, the present invention relates to latex particles loaded with fluorescent dyes that are organic solvent soluble and insoluble in water. In a preferred embodiment, when the dyes are loaded into the water soluble latex particle, an increase is observed in quantum yield of fluorescence as compared to the quantum yield of the dye in aqueous solvent.

Abstract: A combination of nanoparticles is disclosed comprised of amine functionalized polyethylene glycol in which one particle with a fluorescent donor dye having one wavelength excitation maximum and at least one additional particle with a second fluorescent dye having a second, higher wavelength excitation maximum, the particles having the same or different biomolecule targeting moieties bound to their external surfaces.

Abstract: A carrier for a sample of highly polarized material includes a shell having a radially exterior surface and a radially interior surface, and a sample of highly polarized material interiorly adjacent to the radially interior surface. The shell may be substantially cylindrical, and may be constructed from a magnetic or non-magnetic material. The sample of highly polarized material may comprise a methyl rotor group material. The sample of highly polarized material may comprise pyruvic acid or an acetic acid. The sample of highly polarized material may be co-axial with the cylindrical shell. The sample of highly polarized material may be bonded or frozen to the radially interior surface of the shell. The carrier may further comprise a wad of material that forms a volume and contacts an axially proximate end of at least one of the shell or the sample.

Abstract: Fluorescent activatable probes for imaging biological processes and disease detection in vitro and in vivo. There is also described a method for detecting the presence of an enzyme. A sample is contacted with a nanoparticle including a monomer, at least one cleavable spacer comprising at least one fluorescence activation site, and at least two dyes of at least two types. The cleavable spacer is attached at one end to the nanoparticle. The at least two types comprise an energy donor type and an energy acceptor type. At least one dye of one type is embedded in the nanoparticle and the cleavable spacer has at least one dye of the other type attached. The at least two dyes comprise at least one matched pair capable of fluorescence resonance energy transfer. Fluorescence is detected by exposing the sample to a light source, and detecting emitted light with a detector.

Abstract: In an electron paramagnetic resonance spectrometer, a closed cycle cryocooler is used to cool gaseous helium, which is then circulated around a sample to cool the sample by direct convection. Since the sample is not mechanically connected to the refrigerator, no vibrations are transmitted from the refrigerator to the sample and the sample can be quickly removed and replaced. The cooled helium can be passed through a Joule-Thomson expansion device before circulating the cooled helium around the sample to further cool the helium. In addition, a vacuum pump can be connected to the helium outlet after circulating the cooled helium around the sample to increase the pressure differential across the Joule-Thomson expansion device and further cool the helium. In order to raise the temperature of the cooled helium, a heater can be placed about the cooled helium line upstream from the sample.

Abstract: A comparative image display system comprises a monitor, an import unit and an image matching unit. The import unit receives from the user a tag and display mode of a first image selected by the user from a first imaging data group, and informs the monitor to display the first image on the display interface thereon by the display mode; the image matching unit receives the tag of the first image from the import unit, identifies the imaging information of the first image in the first imaging data group according to the tag, selects a second image with the corresponding imaging information from a second imaging data group according to a pre-defined rule, and informs the monitor to display the second image; the monitor simultaneously and correspondingly displays the second image on the display interface by the display mode as same as that of the first image, wherein the first imaging data group and the second imaging data group both contain multiple images of the same target object.

Abstract: A monitoring cell, used to perform a measurement in an NMR spectrometer of a reaction fluid produced by a reaction vessel, has a body having inlet and outlet transport coaxial capillaries for transporting the reaction fluid between the body and the reaction vessel. Cooling lines are also positioned coaxially with the transport capillaries to transport cooling liquid between the body and the reaction vessel. The cell further has a hollow sample probe for insertion into the NMR spectrometer and a coupler section that removably connects the sample probe to the body so that the inlet transport capillary extends through the body into the interior of the sample probe and the outlet transport capillary is sealed to the sample probe to allow reaction fluid that enters the sample probe via the inlet transport capillary to exit the sample probe via the outlet transport capillary.