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Books on the topic 'Thermic and spectroscopic technique'

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Published: 10 March 2023

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1

Beth, Opila, and NASA Glenn Research Center, eds. Investigation into spectroscopic techniques for thermal barrier coating spall detection. [Cleveland, Ohio]: National Aeronautics and Space Administration, Glenn Research Center, 2001.

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2

1939-, Provder Theodore, Urban Marek W. 1953-, Barth Howard G, American Chemical Society. Division of Polymeric Materials: Science and Engineering., American Chemical Society. Division of Analytical Chemistry., and American Chemical Society Meeting, eds. Hyphenated techniques in polymer characterization: Thermal-spectroscopic and other methods. Washington, DC: American Chemical Society, 1994.

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3

M, Loew Leslie, ed. Spectroscopic membrane probes. Boca Raton, Fla: CRC Press, 1988.

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4

J, McNamara Bernard, Lerner Jeremy M, University of New Mexico, Society of Photo-optical Instrumentation Engineers., and American Astronomical Society, eds. Optical spectroscopic instrumentation and techniques for the 1990s: Applications in astronomy, chemistry, and physics, 4-6 June 1990, Las Cruces, New Mexico. Bellingham, Wash: SPIE, 1990.

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5

Jinxue, Wang, Hays Paul B, and Society of Photo-optical Instrumentation Engineers., eds. Optical spectroscopic techniques and instrumentation for atmospheric and space research II: 5-6 August 1996, Denver, Colorado. Bellingham, Wash: SPIE, 1996.

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6

M, Larar Allen, and Society of Photo-optical Instrumentation Engineers., eds. Optical spectroscopic techniques and instrumentation for atmospheric and space research III: 19-21 July 1999, Denver, Colorado. Bellingham, Wash: SPIE, 1999.

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7

1944-, Denton M. Bonner, and Royal Society of Chemistry (Great Britain), eds. Further developments in scientific optical imaging. Cambridge: Royal Society of Chemistry, 2000.

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8

M, Larar Allen, Mlynczak Martin G, Langley Research Center, and Society of Photo-optical Instrumentation Engineers., eds. Optical spectroscopic techniques, remote sensing, and instrumentation for atmospheric and space research IV: 30 July-2 August 2001, San Diego, USA. Bellingham, Wash: SPIE, 2002.

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9

Michael, Cox, Srinivasan Vijayakumar, and United States. National Aeronautics and Space Administration., eds. Development of processing techniques for advanced thermal protection materials: (NASA-Ames grant no. NAG2-848) : semi-annual progress report : June 1, 1997-November 30, 1997. [Washington, DC: National Aeronautics and Space Administration, 1997.

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10

United States. National Aeronautics and Space Administration., ed. Development of processing techniques for advanced thermal protection materials: Annual report for the period June 1, 1993 through May 31, 1994. [Washington, DC: National Aeronautics and Space Administration, 1994.

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11

United States. National Aeronautics and Space Administration., ed. Development of processing techniques for advanced thermal protection materials: (NASA-Ames grant no. NAG2-848), annual progress report, June 1, 1996 - May 31, 1997. [Washington, DC: National Aeronautics and Space Administration, 1997.

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12

Spectroscopic Membrane Probes. CRC Press, 1988.

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13

Spectroscopic Membrane Probes. CRC Press, 1988.

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14

National Aeronautics and Space Administration (NASA) Staff. Investigation into Spectroscopic Techniques for Thermal Barrier Coating Spall Detection. Independently Published, 2018.

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15

Loew, Leslie M. Spectroscopic Membrane Probes: Volume 1. Taylor & Francis Group, 2018.

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16

Spectroscopic Membrane Probes: Volume 1. Taylor & Francis Group, 2018.

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17

Loew, Leslie M. Spectroscopic Membrane Probes: Volume 1. Taylor & Francis Group, 2018.

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18

Loew, Leslie M. Spectroscopic Membrane Probes: Volume 1. Taylor & Francis Group, 2018.

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19

Loew, Leslie M. Spectroscopic Membrane Probes: Volume 2. Taylor & Francis Group, 2018.

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20

Spectroscopic Membrane Probes: Volume 2. Taylor & Francis Group, 2018.

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21

Loew, Leslie M. Spectroscopic Membrane Probes: Volume 2. Taylor & Francis Group, 2018.

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22

Loew, Leslie M. Spectroscopic Membrane Probes: Volume 2. Taylor & Francis Group, 2018.

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23

Hyphenated Techniques in Polymer Characterization: Thermal-Spectroscopic and Other Methods (Acs Symposium Series). An American Chemical Society Publication, 1994.

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24

Butler, L. R. P. Analysis of Biological Materials: The Proceedings of a Conference Held in Pretoria, South Africa, October 1977, by the Spectroscopic Society of South Africa. Elsevier Science & Technology Books, 2018.

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25

Process Analytical Technology: Spectroscopic Tools and Implementation Strategies for the Chemical and Pharmaceutical Industries. Blackwell Publishing Limited, 2005.

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26

Bakeev, Katherine A. Process Analytical Technology: Spectroscopic Tools and Implementation Strategies for the Chemical and Pharmaceutical Industries. Wiley & Sons, Incorporated, John, 2008.

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27

Bakeev, Katherine A. Process Analytical Technology: Spectroscopic Tools and Implementation Strategies for the Chemical and Pharmaceutical Industries. Wiley & Sons, Limited, John, 2010.

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28

Bakeev, Katherine A. Process Analytical Technology: Spectroscopic Tools and Implementation Strategies for the Chemical and Pharmaceutical Industries. Wiley & Sons, Incorporated, John, 2010.

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29

Bakeev, Katherine A. Process Analytical Technology: Spectroscopic Tools and Implementation Strategies for the Chemical and Pharmaceutical Industries. Wiley & Sons, Incorporated, John, 2008.

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30

Process Analytical Technology: Spectroscopic Tools and Implementation Strategies for the Chemical and Pharmaceutical Industries. Wiley & Sons, Limited, John, 2007.

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31

M, Larar Allen, Shaw Joseph A, Sun Zhaobo, and Society of Photo-optical Instrumentation Engineers., eds. Optical spectroscopic techniques and instrumentation for atmospheric and space research V: 7-8 August, 2003, San Diego, California, USA. Bellingham, Wash: SPIE, 2003.

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32

Optical spectroscopic techniques and instrumentation for atmospheric and space research V: 7-8 August 2003, San Diego, California, USA. Bellingham, WA: SPIE, 2004.

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33

Furst, Eric M., and Todd M. Squires. Microrheology. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780199655205.001.0001.

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We present a comprehensive overview of microrheology, emphasizing the underlying theory, practical aspects of its implementation, and current applications to rheological studies in academic and industrial laboratories. Key methods and techniques are examined, including important considerations to be made with respect to the materials most amenable to microrheological characterization and pitfalls to avoid in measurements and analysis. The fundamental principles of all microrheology experiments are presented, including the nature of colloidal probes and their movement in fluids, soft solids, and viscoelastic materials. Microrheology is divided into two general areas, depending on whether the probe is driven into motion by thermal forces (passive), or by an external force (active). We present the theory and practice of passive microrheology, including an in-depth examination of the Generalized Stokes-Einstein Relation (GSER). We carefully treat the assumptions that must be made for these techniques to work, and what happens when the underlying assumptions are violated. Experimental methods covered in detail include particle tracking microrheology, tracer particle microrheology using dynamic light scattering and diffusing wave spectroscopy, and laser tracking microrheology. Second, we discuss the theory and practice of active microrheology, focusing specifically on the potential and limitations of extending microrheology to measurements of non-linear rheological properties, like yielding and shear-thinning. Practical aspects of magnetic and optical tweezer measurements are preseted. Finally, we highlight important applications of microrheology, including measurements of gelation, degradation, high-throughput rheology, protein solution viscosities, and polymer dynamics.
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34

Development of processing techniques for advanced thermal protection materials: Annual progress report, June 1, 1994 - May 31, 1995. [Washington, DC: National Aeronautics and Space Administration, 1995.

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35

Development of processing techniques for advanced thermal protection materials: (NASA-Ames grant no. NAG2-848) : semi-annual progress report : June 1, 1997-November 30, 1997. [Washington, DC: National Aeronautics and Space Administration, 1997.

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36

Daghero, D., G. A. Ummarino, and R. S. Gonnelli. Andreev Reflection and Related Studies in Low-Dimensional Superconducting Systems. Edited by A. V. Narlikar. Oxford University Press, 2017. http://dx.doi.org/10.1093/oxfordhb/9780198738169.013.5.

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This article investigates the potential of the point contact Andreev reflection spectroscopy (PCARS) technique for measuring the symmetry of the energy gap and other key parameters of various 0-, 1-, and 2-dimensional superconducting systems. It begins with a brief description of PCARS, explaining what a point contact is and how it can be made and the conditions under which a PC is ballistic, as well as why and to what extent a PC between normal metals is spectroscopic. It then discusses the basics of Andreev reflection and the length scales in mesoscopic systems before considering the limits of applicability of PCARS for spectroscopy of ‘small’ superconductors. Finally, it reviews some examples of PCARS in quasi-0D, quasi-1D and quasi-2D superconductors.
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