Dindi Yu scite author profile

Dindi Yu

4Publications

26Citation Statements Received

96Citation Statements Given

How they've been cited

How they cite others

137

Affiliations

University of Houston

Publications

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Optical atomic magnetometer at body temperature for magnetic particle imaging and nuclear magnetic resonance

Garcia

Yao

et al. 2010

Opt. Lett.

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Optical atomic magnetometers are often bulky and operate at elevated temperatures that impose restrictions on studying biological samples. Here we report a miniaturized Cs-based magnetometer, in contrast to conventionally used K- and Rb-based ones, with high sensitivity. The magnetic shield employed is more compact, and the optimal operation temperature of 37 degrees C is lower than previous magnetometers and is suitable for biological research. Applications include scanning magnetic imaging of functionalized magnetic particles and nuclear magnetic resonance of water. We reveal that the stability and sensitivity of the apparatus are not significantly affected by the absence of a laser stabilization device.

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Detecting molecules and cells labeled with magnetic particles using an atomic magnetometer

Ruangchaithaweesuk

Yao

et al. 2012

J Nanopart Res

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Toward portable nuclear magnetic resonance devices using atomic magnetometers

Garcia

2009

Concepts Magnetic Resonance

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ABSTRACT:The motivation for developing alternative detection techniques for nuclear magnetic resonance (NMR) and magnetic resonance imaging (MRI) is to overcome some of the limitations associated with high-field NMR/MRI instruments. The limitations include poor portability, cryogenic requirements, and high costs. To achieve this goal, a low magnetic field is preferred. Since the sensitivity of inductive detection for conventional NMR and MRI scales linearly with the magnetic field strength, it is not optimal for low-field detection. In this contribution, we describe the concept of using atomic magnetometers as an alternative detection method. Atomic magnetometers possess an ultrahigh sensitivity that is independent of the magnetic field strength, which makes them viable for low-field detection in NMR and MRI. We first introduce the principle of atomic magnetometry and follow this with a discussion of recent progress in the field. To compare the sensitivities of atomic magnetometers of diverse sizes, we define a signal-to-noise ratio for a fixed detection volume to normalize the sensitivity with regard to the cell size. We then focus on two coupling schemes for NMR and MRI detection using atomic magnetometers. Finally, we discuss the challenges involved in implementing this alternative detection technique for NMR and MRI.

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Applications of optically detected MRI for enhanced contrast and penetration in metal

Ruangchaithaweesuk

Garcia

et al. 2012

Journal of Magnetic Resonance

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Dindi Yu

Optical atomic magnetometer at body temperature for magnetic particle imaging and nuclear magnetic resonance

Detecting molecules and cells labeled with magnetic particles using an atomic magnetometer

Toward portable nuclear magnetic resonance devices using atomic magnetometers

Applications of optically detected MRI for enhanced contrast and penetration in metal

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