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Books on the topic 'Synchrotron in situ imaging'

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Published: 6 September 2023

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1

Bruce, Steiner, and United States. National Aeronautics and Space Administration., eds. Diffraction imaging (topography) with monochromatic synchrotron radiation. [Washington, DC: National Aeronautics and Space Administration, 1988.

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2

Bruce, Steiner, and United States. National Aeronautics and Space Administration., eds. X-ray diffraction imaging (topography) of electrooptic crystals by synchrotron radiation. [Washington, DC: National Aeronautics and Space Administration, 1988.

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3

Bruce, Steiner, and United States. National Aeronautics and Space Administration., eds. X-ray diffraction imaging (topography) of electrooptic crystals by synchrotron radiation. [Washington, DC: National Aeronautics and Space Administration, 1988.

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4

A, Sharif N., ed. Molecular imaging in neuroscience: A practical approach. Oxford [England]: IRL Press at Oxford University Press, 1993.

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5

B, Steiner, and United States. National Aeronautics and Space Administration., eds. Structural anomalies in undoped gallium arsenide observed in high resolution diffraction imaging with monochromatic synchrotron radiation. [Washington, DC: National Aeronautics and Space Administration, 1988.

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6

Alan, Stockton, and United States. National Aeronautics and Space Administration., eds. Deep WFPC2 and ground-based imaging of a complete sample of 3C quasars and galaxies. [Washington, DC: National Aeronautics and Space Administration, 1997.

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7

Alan, Stockton, and United States. National Aeronautics and Space Administration., eds. Deep WFPC2 and ground-based imaging of a complete sample of 3C quasars and galaxies. [Washington, DC: National Aeronautics and Space Administration, 1997.

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8

Alan, Stockton, and United States. National Aeronautics and Space Administration., eds. Deep WFPC2 and ground-based imaging of a complete sample of 3C quasars and galaxies. [Washington, DC: National Aeronautics and Space Administration, 1997.

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9

Alan, Stockton, and United States. National Aeronautics and Space Administration., eds. Deep WFPC2 and ground-based imaging of a complete sample of 3C quasars and galaxies. [Washington, DC: National Aeronautics and Space Administration, 1997.

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10

Rene, Benattar, European Physical Society, European Federation for Applied Optics., and Society of Photo-optical Instrumentation Engineers., eds. X-ray instrumentation in medicine and biology, plasma physics, astrophysics, and synchrotron radiation: Proceedings, ECO2, 25-28 April 1989, Paris, France. Bellingham, Wash: SPIE-the International Society for Optical Engineering, 1989.

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11

Leckie, Malcolm Peter. In situ imaging and protein analysis of host subcellular structures during the infection of pea by Erysiphe pisi. Birmingham: University of Birmingham, 1996.

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12

Masao, Kuriyama, and United States. National Aeronautics and Space Administration., eds. Streaking images that appear only in the plane of diffraction in undoped GaAS single crystals: Diffraction imaging (topography) by monchromatic synchrotron radiation. [Washington, DC: National Aeronautics and Space Administration, 1988.

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13

Bargon, J., R. Giernoth, L. Greiner, L. T. Kuhn, and S. Laue. In Situ NMR Methods in Catalysis. Springer Berlin / Heidelberg, 2010.

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14

Bargon, J., R. Giernoth, L. Greiner, Joachim Bargon, and Lars T. Kuhn. In Situ NMR Methods in Catalysis. Springer London, Limited, 2007.

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15

Applications of synchrotron radiation to materials science: Diffraction imaging (topgraphy) and microradiography. [Washington, DC: National Aeronautics and Space Administration, 1988.

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16

(Contributor), J. Bargon, R. Giernoth (Contributor), L. Greiner (Contributor), L. T. Kuhn (Contributor), S. Laue (Contributor), A. Liese (Contributor), H. G. Niessen (Contributor), et al., eds. In situ NMR Methods in Catalysis (Topics in Current Chemistry). Springer, 2007.

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17

Sharif, N. A. Molecular Imaging in Neuroscience: A Practical Approach (Practical Approach Series). Oxford University Press, USA, 1994.

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18

Sharif, N. A. Molecular Imaging in Neuroscience: A Practical Approach (Practical Approach Series). Oxford University Press, USA, 1994.

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19

Delory, Eric, and Jay Pearlman. Challenges and Innovations in Ocean in-Situ Sensors: Measuring Inner Ocean Processes and Health in the Digital Age. Elsevier, 2018.

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20

Delory, Eric, and Jay Pearlman. Challenges and Innovations in Ocean in Situ Sensors: Measuring Inner Ocean Processes and Health in the Digital Age. Elsevier, 2018.

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21

Zrazhevskiy, P., and X. Gao. Bioconjugated quantum dots for tumor molecular imaging and profiling. Edited by A. V. Narlikar and Y. Y. Fu. Oxford University Press, 2017. http://dx.doi.org/10.1093/oxfordhb/9780199533060.013.17.

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This article discusses the use of bioconjugated quantum dots (QDs) for tumor molecular imaging and profiling. The need for personalized diagnostics and therapy is becoming apparent in all areas of medicine, and especially urgent and sought after in treating cancer. Mechanisms of cancerogenesis and cancer response to therapy remain poorly understood, thus precluding accurate cancer diagnosis, prognosis, and effective treatment. Accurate molecular profiling of individual tumors is one key to effective treatment. This article first considers the photophysical properties of QDs before reviewing the most common methods for engineering QD-based probes for biomedical applications, including water solubilization and bioconjugation approaches. It also describes a number of techniques for molecular imagingand profiling of tumors, ranging from QD-based multicolor flow cytometry and applications of QDs in high-resolution correlated fluorescence/electron microscopy, QD bioprobes for molecular profiling of tumor-tissue sections and microarrays, and QD-oligonucleotide bioconjugates for in-situ hybridization.
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22

Cheng, Ron Ron, and Abhay K. Varma. Ulnar Neuropathy—Cubital Tunnel Syndrome. Edited by Meghan E. Lark, Nasa Fujihara, and Kevin C. Chung. Oxford University Press, 2018. http://dx.doi.org/10.1093/med/9780190617127.003.0004.

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The chapter presents the typical scenario of ulnar nerve entrapment at the elbow. The clinical picture can mimic pathology of nerve roots, of the brachial plexus, or of the ulnar nerve at different sites. Electrodiagnostic study helps to differentiate ulnar nerve entrapment from radiculopathy and to localize the site of compression, while imaging (ultrasound and MR imaging) are useful adjuncts to clinical examination. Conservative management is recommended for intermittent symptoms and absence of motor involvement. Surgical procedures include in situ, open, or endoscopic decompression and nerve transposition. Subluxation of the nerve over the medial epicondyle and recurrent or persistent neuropathy after in situ decompression are indications for transposition.
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23

Wang, Lilian. Amorphous/Indistinct Calcifications (Group). Edited by Christoph I. Lee, Constance D. Lehman, and Lawrence W. Bassett. Oxford University Press, 2018. http://dx.doi.org/10.1093/med/9780190270261.003.0039.

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Amorphous calcifications are calcifications that are sufficiently small and/or hazy that a more specific morphological classification cannot be made. Historically, such calcifications were referred to as “indistinct” calcifications. The likelihood of malignancy and the management of amorphous calcifications largely depend on their distribution. This chapter, appearing in the section on calcifications, reviews the key imaging and clinical features, imaging protocols and pitfalls, differential diagnosis with radiology–pathology correlation, and management recommendations for amorphous/indistinct calcifications in a group. Topics discussed include spot magnification views for characterization, role of distribution in BI-RADS assessment, and pathological entities, including fibrocystic change, milk of calcium, atypical ductal hyperplasia (ADH), and ductal carcinoma in situ (DCIS).
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24

Doepke, Laura. Fine, Linear/Branching Calcifications. Edited by Christoph I. Lee, Constance D. Lehman, and Lawrence W. Bassett. Oxford University Press, 2018. http://dx.doi.org/10.1093/med/9780190270261.003.0041.

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Of all of the calcifications identified on mammography, fine, linear/branching calcifications are the most suspicious for malignancy, most commonly ductal carcinoma in situ (DCIS). The risk of malignancy associated with fine, linear/branching calcifications is approximately 70%. A recent study evaluating the positive predictive value of suspicious calcifications based on the fifth edition of BI-RADS found the positive predictive value of fine pleomorphic/linear or segmental calcifications was 93.8%. This chapter, which appears in the section on calcifications, reviews the key imaging features, imaging protocols for evaluating calcifications, management, and potential pitfalls or mimics of fine, linear/branching calcifications. Topics discussed will include magnification views, stereotactic core needle biopsy, and radiology–pathology correlation.
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25

Ho, Christopher P. Secretory Calcifications. Edited by Christoph I. Lee, Constance D. Lehman, and Lawrence W. Bassett. Oxford University Press, 2018. http://dx.doi.org/10.1093/med/9780190270261.003.0036.

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Secretory calcifications are large rod-like calcifications that are often seen in a linear or segmental distribution. They can often be easily differentiated from more malignant-appearing calcifications because they are smooth and much coarser than calcifications seen with ductal carcinoma in situ (DCIS). Secretory calcifications are thought to be associated with duct ectasia and have been historically referred to as “plasma cell mastitis” because of the close association of plasma cells within the ductal infiltrates and epithelial hyperplasia. This chapter, appearing in the section on calcifications, reviews the key imaging and clinical features, imaging protocols and pitfalls, differential diagnoses, and management recommendations for secretory calcifications. Topics discussed include appropriate use of magnification views, how to differentiate the calcifications from more suspicious ones, and appropriate follow-up.
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26

Lee-Felker, Stephanie A., and Colin J. Wells. Pleomorphic Calcifications. Edited by Christoph I. Lee, Constance D. Lehman, and Lawrence W. Bassett. Oxford University Press, 2018. http://dx.doi.org/10.1093/med/9780190270261.003.0042.

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Pleomorphic calcifications are categorized among calcifications with suspicious morphology: amorphous, coarse heterogeneous, fine linear or fine-linear branching, and fine pleomorphic calcifications. Unlike amorphous calcifications, pleomorphic calcifications are more conspicuous, with discernible shapes that appear predominantly irregular, and are variable in size and configuration. A segmental distribution, seen as a triangular shape with its apex centered at the nipple, is especially suspicious for ductal carcinoma in situ (DCIS) or multifocal breast cancer, as its pattern of calcium deposition suggests involvement of a duct system within the breast. This chapter, appearing in the section on calcifications, reviews the key clinical and imaging features, imaging protocols, differential diagnoses, and management recommendations for pleomorphic calcifications. Topics discussed include characteristic morphology and distribution of pleomorphic calcifications, BI-RADS assessments, core needle biopsy, and radiological–pathological correlation.
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27

Benyounes, Nadia, Mauro Pepi, Roberta Esposito, Carmen Ginghina, and Ariel Cohen. Cardiac masses and potential sources of emboli. Oxford University Press, 2016. http://dx.doi.org/10.1093/med/9780198726012.003.0051.

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Cardiac masses are abnormal structures within or immediately adjacent to the heart. They have to be distinguished from variants of normal cardiac structures, postoperative changes, and ultrasound artefacts. These abnormal masses may be localized in the left or right heart cavities, with different clinical manifestations according to their localization. Among the abnormal cardiac masses (thrombus, vegetations, tumours), tumours are not discussed in this chapter. Echocardiography is the main but not the only imaging technique for the evaluation of cardiac masses, and is largely available. Hence, it is indicated in patients with a systemic embolic event, searching for a cardiac source embolism. When transthoracic echocardiography is negative, transoesophageal echocardiography is indicated, in cryptogenic ischaemic events (no cause found). Right heart masses are mainly responsible for pulmonary embolisms, but may be the cause of a systemic embolus, via the atrial septum. Right heart thrombi rarely form in situ, and are hence more often venous thrombi entrapped in the right heart on their way to the pulmonary arteries. Echocardiography is mandatory in the setting of pulmonary embolism.
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28

Delgado Martín, Jordi, Andrea Muñoz-Ibáñez, and Ismael Himar Falcón-Suárez. 6th International Workshop on Rock Physics: A Coruña, Spain 13 -17 June 2022: Book of Abstracts. 2022nd ed. Servizo de Publicacións da UDC, 2022. http://dx.doi.org/10.17979/spudc.000005.

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[Abstract] The 6th International Workshop on Rock Physics (6IWRP) was held A Coruña, Spain, between 13th and 17th of June, 2022. This meeting follows the track of the five successful encounters held in Golden (USA, 2011), Southampton (UK, 2013), Perth (Australia, 2015), Trondheim (Norway, 2017) and Hong Kong (China, 2019). The aim of the workshop was to bring together experiences allowing to illustrate, discuss and exchange recent advances in the wide realm of rock physics, including theoretical developments, in situ and laboratory scale experiments as well as digital analysis. While rock physics is at the core of the oil & gas industry applications, it is also essential to enable the energy transition challenge (e.g. CO2 and H2 storage, geothermal), ensure a safe and adequate use of natural resources and develop efficient waste management strategies. The topics of 6IWRP covered a broad spectrum of rock physics-related research activities, including: • Experimental rock physics. New techniques, approaches and applications; Characterization of the static and dynamic properties of rocks and fluids; Multiphysics measurements (NMR, electrical resistivity…); Deep/crustal scale rock physics. • Modelling and multiscale applications: from the lab to the field. Numerical analysis and model development; Data science applications; Upscaling; Microseismicity and earthquakes; Subsurface stresses and tectonic deformations. • Coupled phenomena and rock properties: exploring interactions. Anisotropy; Flow and fractures; Temperature effects; Rock-fluid interaction; Fluid and pressure effects on geophysical signatures. • The energy transition challenge. Applications to energy storage (hydrogen storage in porous media), geothermal resources, energy production (gas hydrates), geological utilization and storage of CO2, nuclear waste disposal. • Rock physics templates: advances and applications. Quantitative assessment; Applications to reser voir characterization (role of seismic wave anisotropy and fracture networks). • Advanced rock physics tools. Machine learning; application of imaging (X-ray CT, X-ray μCT, FIB-SEM…) to obtain rock proper ties. This book compiles more than 50 abstracts, summarizing the works presented in the 6IWRP by rock physicists from all over the world, belonging to both academia and industry. This book means an updated overview of the rock physics research worldwide.
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