Magnetic resonance imaging with optical preamplification and detection

[1]  A. Schliesser,et al.  Sensitive optomechanical transduction of electric and magnetic signals to the optical domain. , 2019, Optics express.

[2]  K. Nagasaka,et al.  Studies on NMR-signal up-conversion from radio-frequency to optical regimes using a lightweight nanomembrane transducer. , 2019, Journal of magnetic resonance.

[3]  Martijn Froeling,et al.  RF coils: A practical guide for nonphysicists , 2018, Journal of magnetic resonance imaging : JMRI.

[4]  Jacob M. Taylor,et al.  Electrooptomechanical Equivalent Circuits for Quantum Transduction , 2017, Physical Review Applied.

[5]  G. Giuseppe,et al.  Sensitivity-Bandwidth Limit in a Multimode Optoelectromechanical Transducer , 2017, 1707.07562.

[6]  Jacob M. Taylor,et al.  Electro-mechano-optical detection of nuclear magnetic resonance , 2017, 1706.00532.

[7]  Reconfigurable re-entrant cavity for wireless coupling to an electro-optomechanical device. , 2017, The Review of scientific instruments.

[8]  Sergey Cheshkov,et al.  Trap Design and Construction for High-Power Multinuclear Magnetic Resonance Experiments. , 2016, Concepts in magnetic resonance. Part B, Magnetic resonance engineering.

[9]  Joseph Rushton,et al.  Contributed Review: The feasibility of a fully miniaturized magneto-optical trap for portable ultracold quantum technology. , 2014, The Review of scientific instruments.

[10]  S. Schmid,et al.  Optical detection of radio waves through a nanomechanical transducer , 2013, Nature.

[11]  Emiliano Schena,et al.  Optical Fiber-Based MR-Compatible Sensors for Medical Applications: An Overview , 2013, Sensors.

[12]  J. Meijer,et al.  Nuclear Magnetic Resonance Spectroscopy on a (5-Nanometer)3 Sample Volume , 2013, Science.

[13]  D. Rugar,et al.  Nanoscale Nuclear Magnetic Resonance with a Nitrogen-Vacancy Spin Sensor , 2013, Science.

[14]  W. Sobol,et al.  Recent advances in MRI technology: Implications for image quality and patient safety. , 2012, Saudi journal of ophthalmology : official journal of the Saudi Ophthalmological Society.

[15]  J. Polimeni,et al.  96‐Channel receive‐only head coil for 3 Tesla: Design optimization and evaluation , 2009, Magnetic resonance in medicine.

[16]  P L Volegov,et al.  MRI with an atomic magnetometer suitable for practical imaging applications. , 2009, Journal of magnetic resonance.

[17]  Omer Gokalp Memis,et al.  Miniaturized fiber‐optic transmission system for MRI signals , 2008, Magnetic resonance in medicine.

[18]  M. Romalis,et al.  Detection of NMR signals with a radio-frequency atomic magnetometer. , 2006, Journal of magnetic resonance.

[19]  P. Mahadevan,et al.  An overview , 2007, Journal of Biosciences.

[20]  Dmitry Budker,et al.  Magnetic resonance imaging with an optical atomic magnetometer , 2006, Proceedings of the National Academy of Sciences.

[21]  M. Romalis,et al.  Tunable atomic magnetometer for detection of radio-frequency magnetic fields. , 2005, Physical review letters.

[22]  E. Cornell,et al.  Teflon feedthrough for coupling optical fibers into ultrahigh vacuum systems. , 1998, Applied optics.

[23]  J. Garbini,et al.  Detection of AC magnetic signals by parametric mode coupling in a mechanical oscillator , 1996 .

[24]  D. Rugar,et al.  Mechanical detection of magnetic resonance , 1992, Nature.

[25]  Christopher J. Hardy,et al.  Electronic decoupling of surface-coil receivers for NMR imaging and spectroscopy , 1986 .