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1

Aklimi, Eyal. Magnetics and GaN for Integrated CMOS Voltage Regulators. [New York, N.Y.?]: [publisher not identified], 2016.

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2

Andrew, Kenny, Palazzolo Alan B, and NASA Glenn Research Center, eds. An integrated magnetic circuit model and finite element model approach to magnetic bearing design. [Cleveland, Ohio: NASA Glenn Research Center, 2003.

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Sturcken, Noah. Integrated Voltage Regulators with Thin-Film Magnetic Power Inductors. [New York, N.Y.?]: [publisher not identified], 2013.

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4

Microfluidic Concentration Gradient Generation and Integrated Magnetic Sorting of Microparticles. [New York, N.Y.?]: [publisher not identified], 2013.

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5

G, Andritzky, Geological Survey (Namibia), and Support to the Geological Survey/Mineral Prospecting Promotion (PN 90.2214.6) (Project : Namibia), eds. Integrated investigation of magnetic patterns in the Sinclair-Helmeringhausen area. Windhoek: Bundesanstalt für Geowissenschaften und Rohstoffe, 1996.

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6

Douglas, Adam J., ed. Magnetic thin film devices. San Diego: Academic Press, 2000.

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7

G, Andritzky, Geological Survey (Namibia), and Support to the Geological Survey/Mineral Prospecting Promotion (PN 90.2214.6) (Project : Namibia), eds. Integrated investigation of magnetic patterns in and around the Rosh Pinah area. Windhoek: Bundesanstalt für Geowissenschaften und Rohstoffe, 1996.

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8

Reiskarimian, Negar. Fully-Integrated Magnetic-Free Nonreciprocal Components by Breaking Lorentz Reciprocity: From Physics to Applications. [New York, N.Y.?]: [publisher not identified], 2020.

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9

F, Aichner, and European Magnetic Resonance Forum, eds. Three-dimensional magnetic resonance imaging: An integrated clinical up-date of 3D-imaging and 3D-postprocessing : proceedings of a joint meeting in Obergurgl, Austria, 23-27 March 1992. Oxford: Blackwell Scientific Publications, 1994.

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10

Symposium '89 (1989 Phoenix, Ariz.). An integrated physical and imaging approach to the clinical diagnosis and management of trauma and conditions affecting the cervical spine, the lumbar spine & the extremities. [Arlington, Va.]: American Chiropractic Association Council on Diagnostic Imaging and Council on Chiropractic Orthopedics, 1989.

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11

Symposium on Electrochemical Technology in Electronics (1987 Honolulu, Hawaii). Proceedings of the Symposium on Electrochemical Technology in Electronics: 1987 international conference. Pennington, N.J. (10 S. Main St., Pennington 08534-2896): Electrochemical Society, 1988.

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12

Silicon non-volatile memories: Paths of innovation. London, UK: ISTE, 2009.

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13

J, Taylor Deborah, ed. Ferroelectric film devices. San Diego: Academic Press, 2000.

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14

H, Francombe Maurice, ed. Handbook of thin film devices. San Diego, CA: Academic, 2000.

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15

R, Broussard Phillip, ed. Superconducting film devices. San Diego: Academic Press, 2000.

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16

C, Wood Colin E., ed. Hetero-structures for high performance devices. San Diego: Academic Press, 2000.

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17

U, Perera A. G., and Liu H. C, eds. Semiconductor optical and electro-optical devices. San Diego: Academic Press, 2000.

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18

Henryk, Tunia, ed. Automatic control of converter-fed drives. Amsterdam: Elsevier, 1994.

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19

L, Miglio, and D'Heurle F. M, eds. Silicides: Fundamentals and applications : proceedings of the 16th Course of the International School of Solid State Physics, Erice, Italy, 5-16 June 1999. Singapore: World Scientific, 2000.

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20

Integrated Resonant Magnetic Field Sensor. Delft Univ Pr, 1997.

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21

Eriksson, Olle, Anders Bergman, Lars Bergqvist, and Johan Hellsvik. Ultrafast Switching Dynamics. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780198788669.003.0011.

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The time-integrated amount of data and stored information, is doubled roughly every eighteen months, and since the majority of the worlds information is stored in magnetic media, the possibility to write and retrieve information in a magnetic material at ever greater speed and with lower energy consumption, has obvious benefits for our society. Hence the seemingly simple switching of a magnetic unit, a bit, is a crucial process which defines how efficiently information can be stored and retrieved from a magnetic memory. Of particular interest here are the concepts of ultrafast magnetism and all-optical control of magnetism which have in recent decades become the basis for an intense research field. The motivation is natural; the mechanisms behind these phenomena are far from trivial and the technological implications are huge.
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22

Bandyopadhyay, Supriyo, and Jayasimha Atulasimha. Magnetic Tunnel Junction Based Integrated Logics and Computational Circuits. Wiley & Sons, Limited, John, 2016.

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23

Yoshimura, Tetsuzo. Self-Organized 3D Integrated Optical Interconnects. Jenny Stanford Publishing, 2020.

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24

Yoshimura, Tetsuzo. Self-Organized 3D Integrated Optical Interconnects. Jenny Stanford Publishing, 2020.

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25

Yoshimura, Tetsuzo. Self-Organized 3D Integrated Optical Interconnects. Jenny Stanford Publishing, 2020.

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26

Self-Organized 3D Integrated Optical Interconnects. Jenny Stanford Publishing, 2020.

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27

Hachiya, Koji. Printed Circuit Board with Integrated Coil, and Magnetic Device: United States Patent. Independently Published, 2020.

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28

Gravity And Magnetic Methods For Geological Studies Principles Integrated Exploration And Plate Tectonics. CRC Press, 2011.

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29

Schwitter, Juerg, and Jens Bremerich. Cardiac magnetic resonance in the intensive and cardiac care unit. Oxford University Press, 2015. http://dx.doi.org/10.1093/med/9780199687039.003.0023.

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Current applications of cardiac magnetic resonance offer a wide spectrum of indications in the setting of acute cardiac care. In particular, cardiac magnetic resonance is helpful for the differential diagnosis of chest pain by the detection of ischaemia, myocardial stunning, myocarditis, and pericarditis. Also, Takotsubo cardiomyopathy and acute aortic diseases can be evaluated by cardiac magnetic resonance and are important differential diagnoses in patients with acute chest pain. In patients with restricted windows for echocardiography, according to guidelines, cardiac magnetic resonance is the method of choice to evaluate complications of an acute myocardial infarction. In an acute myocardial infarction, cardiac magnetic resonance allows for a unique characterization of myocardial damage by quantifying necrosis, microvascular obstruction, oedema (i.e. area at risk), and haemorrhage. These features will help us to understand better the pathophysiological events during infarction and will also allow us to assess new treatment strategies in acute myocardial infarction. To which extent the information on tissue damage will guide patient management is not yet clear, and further research, e.g. in the setting of the European Cardiovascular MR registry, is ongoing to address this issue. Recent studies also demonstrated the possiblity to reduce costs in the management of acute coronary syndromes when cardiac magnetic resonance is integrated into the routine work-up. In the near future, applications of cardiac magnetic resonance will continue to expand in the acute cardiac care units, as manufacturers are now strongly focusing on this aspect of user-friendliness. Finally, in the next decade or so, magnetic resonance imaging of other nuclei, such as fluorine and carbon, might become a reality in clinics, which would allow for metabolic and targeted molecular imaging with excellent sensitivity and specificity.
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30

Schwitter, Juerg, and Jens Bremerich. Cardiac magnetic resonance in the intensive and cardiac care unit. Oxford University Press, 2016. http://dx.doi.org/10.1093/med/9780199687039.003.0023_update_001.

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Current applications of cardiac magnetic resonance offer a wide spectrum of indications in the setting of acute cardiac care. In particular, cardiac magnetic resonance is helpful for the differential diagnosis of chest pain by the detection of ischaemia, myocardial stunning, myocarditis, and pericarditis. Also, Takotsubo cardiomyopathy and acute aortic diseases can be evaluated by cardiac magnetic resonance and are important differential diagnoses in patients with acute chest pain. In patients with restricted windows for echocardiography, according to guidelines, cardiac magnetic resonance is the method of choice to evaluate complications of an acute myocardial infarction. In an acute myocardial infarction, cardiac magnetic resonance allows for a unique characterization of myocardial damage by quantifying necrosis, microvascular obstruction, oedema (i.e. area at risk), and haemorrhage. These features will help us to understand better the pathophysiological events during infarction and will also allow us to assess new treatment strategies in acute myocardial infarction. To which extent the information on tissue damage will guide patient management is not yet clear, and further research, e.g. in the setting of the European Cardiovascular MR registry, is ongoing to address this issue. Recent studies also demonstrated the possiblity to reduce costs in the management of acute coronary syndromes when cardiac magnetic resonance is integrated into the routine work-up. In the near future, applications of cardiac magnetic resonance will continue to expand in the acute cardiac care units, as manufacturers are now strongly focusing on this aspect of user-friendliness. Finally, in the next decade or so, magnetic resonance imaging of other nuclei, such as fluorine and carbon, might become a reality in clinics, which would allow for metabolic and targeted molecular imaging with excellent sensitivity and specificity.
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31

Schwitter, Juerg, and Jens Bremerich. Cardiac magnetic resonance in the intensive and cardiac care unit. Oxford University Press, 2018. http://dx.doi.org/10.1093/med/9780199687039.003.0023_update_002.

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Current applications of cardiac magnetic resonance offer a wide spectrum of indications in the setting of acute cardiac care. In particular, cardiac magnetic resonance is helpful for the differential diagnosis of chest pain by the detection of ischaemia, myocardial stunning, myocarditis, and pericarditis. Also, Takotsubo cardiomyopathy and acute aortic diseases can be evaluated by cardiac magnetic resonance and are important differential diagnoses in patients with acute chest pain. In patients with restricted windows for echocardiography, according to guidelines, cardiac magnetic resonance is the method of choice to evaluate complications of an acute myocardial infarction. In an acute myocardial infarction, cardiac magnetic resonance allows for a unique characterization of myocardial damage by quantifying necrosis, microvascular obstruction, oedema (i.e. area at risk), and haemorrhage. These features will help us to understand better the pathophysiological events during infarction and will also allow us to assess new treatment strategies in acute myocardial infarction. To which extent the information on tissue damage will guide patient management is not yet clear, and further research, e.g. in the setting of the European Cardiovascular MR registry, is ongoing to address this issue. Recent studies also demonstrated the possiblity to reduce costs in the management of acute coronary syndromes when cardiac magnetic resonance is integrated into the routine work-up. In the near future, applications of cardiac magnetic resonance will continue to expand in the acute cardiac care units, as manufacturers are now strongly focusing on this aspect of user-friendliness. Finally, in the next decade or so, magnetic resonance imaging of other nuclei, such as fluorine and carbon, might become a reality in clinics, which would allow for metabolic and targeted molecular imaging with excellent sensitivity and specificity.
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32

Riehl, Mark. TMS stimulator design. Edited by Charles M. Epstein, Eric M. Wassermann, and Ulf Ziemann. Oxford University Press, 2012. http://dx.doi.org/10.1093/oxfordhb/9780198568926.013.0003.

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Transcranial magnetic stimulators have progressed from basic implementations to integrated systems optimized for treatment of pathologies. This article reviews key factors of design of such clinically targeted systems, discussing design principles, procedure-specific features, and clinical safety requirements. A power source, a capacitor, and a high-power switch controlled by a processor form the basic stimulator. The fundamental operating mechanism of a TMS stimulator is to create a changing magnetic field that can induce a current in adjacent conductive material. The clinical TMS system must incorporate patient positioning, patient comfort, coil positioning features, and intuitive user controls and means of managing patient data to be a fully effective system. The most important safety risk with repetitive TMS reported in the literature is the risk of inducing seizure. Other safety considerations include proper use of human factor analysis to minimize improper operation, the biocompatibility of materials touching the patient, and addressing acoustic noise.
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33

High-density magnetic recording and integrated magneto-optics: Materials and devices : symposium held April 12-16, 1998, San Francisco, California, U.S.A. Warrendale, Pa: Materials Research Society, 1998.

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34

High-Density Magnetic Recording and Integrated Magneto-Optics: Materials and Devices : Symposium Held April 12-16, 1998, San Francisco, California, U.S ... Research Society Symposium Proceedings). Materials Research Society, 1998.

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35

Aichner, F. Three-Dimensional Magnetic Resonance Imaging: An Integrated Clinical Up-Date of 3D-Imaging and 3D-Postprocessing : Proceedings of a Joint Meeting in. Blackwell Science Inc, 1995.

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36

Swartz, Johnna R., Lisa M. Shin, Brenda Lee, and Ahmad R. Hariri. Using Facial Expressions to Probe Brain Circuitry Associated With Anxiety and Depression. Oxford University Press, 2017. http://dx.doi.org/10.1093/acprof:oso/9780190613501.003.0014.

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Emotional facial expressions are processed by a distributed corticolimbic brain circuit including the amygdala, which plays a central role in detecting and responding to emotional expressions, and the prefrontal cortex, which evaluates, integrates, and regulates responses to emotional expressions. Using functional magnetic resonance imaging (fMRI) to probe circuit function can reveal insights into the pathophysiology of mood and anxiety disorders. In this chapter, we review fMRI research into corticolimbic circuit processing of emotional facial expressions in social anxiety disorder, posttraumatic stress disorder, generalized anxiety disorder, panic disorder, specific phobia, and major depressive disorder. We conclude by reviewing recent research examining how variability in circuit function may help predict the future experience of symptoms in young adults and at-risk adolescents, as well as how such variability relates to personality traits associated with psychopathology risk.
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37

Murphet, Julian, Helen Groth, and Penelope Hone, eds. Sounding Modernism. Edinburgh University Press, 2017. http://dx.doi.org/10.3366/edinburgh/9781474416368.001.0001.

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This volume brings together a range of essays by eminent and emergent scholars working at the intersection of modern literary, cinema and sound studies. By attending carefully to the dynamics and aesthetics of mediation, the essays in this collection explore the transformations of the rhythmic or metrical patterning of sound in a range of modern literary and cinematic forms produced from the 1890s through to the mid-twentieth century. The essays ask what specific sonorous qualities are capable of being registered by different modern media, and how sonic transpositions and transferences across media affect the ways in which human subjects attend to modern soundscapes. Script, groove, electrical current, magnetic imprint, phonographic vibration: sound traverses these and other material platforms to become an insistent ground-note of modern aesthetics, one not yet adequately integrated into critical accounts of the period. This collection addresses that lack through a wide-ranging investigation of the conditions under which modernists tapped technically into the rhythms, echoes and sonic architectures of their worlds.
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38

Benarroch, Eduardo E., Jeremy K. Cutsforth-Gregory, and Kelly D. Flemming. Mayo Clinic Medical Neurosciences. Oxford University Press, 2017. http://dx.doi.org/10.1093/med/9780190209407.001.0001.

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This text is intended to serve as an effective foundation on which to build knowledge in the classroom and at the bedside. Chapters have been ordered to improve the integration of neurochemistry and neuropharmacology with our understanding of the nervous system and to facilitate student grasp of the large sections of knowledge. Major sections are devoted to gross anatomy. The format of each chapter consists of Objectives, Introduction, Overview, and text. Clinical problems have been integrated into the text for self assessment. Detailed additional information has been identified in each chapter for those with a desire to go beyond general knowledge. The need to present the vast array of current knowledge of the nervous system required diagrams of anatomy and histology, including magnetic resonance and computed tomographic images to correlate with basic anatomy. Many concepts are clarified further with figures and the abundant use of color throughout. Sections address the neurologic examination and common disorders for systems and levels, including immunologic and genetic neurologic disorders.
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39

Kaufmann, Philipp A., and Oliver Gaemperli. Hybrid Cardiac Imaging. Oxford University Press, 2015. http://dx.doi.org/10.1093/med/9780199392094.003.0028.

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Assessment of both coronary anatomy and myocardial perfusion are equally important for the appropriate treatment of patients with stable coronary artery disease. Cardiac hybrid imaging allows integration of coronary anatomy and perfusion in one all-in-one image, thereby avoiding mental integration of findings. In selected subgroups of patients, cardiac hybrid imaging has demonstrated superior diagnostic accuracy compared to single modalities. The combination of coronary anatomy and function provides incremental prognostic information and improves risk stratification of patients with suspected or known CAD. Aside from CT coronary angiography, coronary artery calcium score (CACS) scans obtained from native ECG-triggered CT are used for hybrid imaging. They are used either for attenuation correction, or can be combined with radionuclide information to improve CAD detection and risk stratification. A large number of integrated hybrid scanners are commercially available and offer advantages for cardiac hybrid imaging. However, these devices are not mandatory, and hybrid imaging is perfectly feasible from two separate datasets using appropriate image fusion software. Cardiac magnetic resonance has entered the arena of hybrid imaging and several integrated PET/MRI devices are already commercially available. Its advantages include the lack of ionizing radiation and a high spatial resolution, particularly for soft tissue structures. In research, hybrid imaging moves beyond its conventional borders of perfusion imaging to target specific molecular or biological pathways that underlie cardiac disease, a concept known as molecular imaging. The combination of radionuclide imaging with CT or MRI offers attractive features to co-localize biological signals from radiolabeled targeted compounds with microanatomical structures.
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40

Wilson, Hamish, Keith Nunn, and Matt Luheshi, eds. Integration of Geophysical Technologies in the Petroleum Industry. Cambridge University Press, 2021. http://dx.doi.org/10.1017/9781108913256.

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The most utilized technique for exploring the Earth's subsurface for petroleum is reflection seismology. However, a sole focus on reflection seismology often misses opportunities to integrate other geophysical techniques such as gravity, magnetic, resistivity, and other seismicity techniques, which have tended to be used in isolation and by specialist teams. There is now growing appreciation that these technologies used in combination with reflection seismology can produce more accurate images of the subsurface. This book describes how these different field techniques can be used individually and in combination with each other and with seismic reflection data. World leading experts present chapters covering different techniques and describe when, where, and how to apply them to improve petroleum exploration and production. It also explores the use of such techniques in monitoring CO2 storage reservoirs. Including case studies throughout, it will be an invaluable resource for petroleum industry professionals, advanced students, and researchers.
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41

Yilmaz, Ali, and Anca Florian. Myocarditis: imaging techniques. Oxford University Press, 2018. http://dx.doi.org/10.1093/med/9780198784906.003.0367.

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The clinical presentation of myocarditis is multifaceted and electrocardiogram (ECG) changes as well as biomarkers tend to be non-specific. Therefore, the diagnosis of myocarditis can be challenging and should be based on an integrated approach including patient history, physical examination, non-invasive tests such as ECG and serum biomarkers, and non-invasive cardiac imaging. As myocarditis may lead to global ventricular dysfunction, regional wall motion abnormalities, and/or diastolic dysfunction, echocardiography should be routinely performed. However, hallmarks of acute myocarditis comprise structural changes such as cardiomyocyte swelling, an increase in extracellular space and water content, accumulation of inflammatory cells, potential necrosis or apoptosis of cardiomyocytes, and myocardial remodelling with fibrotic tissue replacement that can be depicted by cardiovascular magnetic resonance. Nuclear techniques are still not routinely recommended for the work-up of myocarditis—with the possible exception of suspected sarcoidosis—due to limited data, limited diagnostic specificity, limited availability, and risk from radiation exposure. This chapter focuses on those non-invasive cardiac imaging techniques that are used in daily clinical practice for work-up of suspected myocarditis. However, as research continues and novel imaging techniques become available, it is hoped that even more accurate and timely diagnosis of myocarditis will be possible in the near future.
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42

Tiwari, Sandip. Nanoscale Device Physics. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780198759874.001.0001.

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Nanoscale devices are distinguishable from the larger microscale devices in their specific dependence on physical phenomena and effects that are central to their operation. The size change manifests itself through changes in importance of the phenomena and effects that become dominant and the changes in scale of underlying energetics and response. Examples of these include classical effects such as single electron effects, quantum effects such as the states accessible as well as their properties; ensemble effects ranging from consequences of the laws of numbers to changes in properties arising from different magnitudes of the inter-actions, and others. These interactions, with the limits placed on size, make not just electronic, but also magnetic, optical and mechanical behavior interesting, important and useful. Connecting these properties to the behavior of devices is the focus of this textbook. Description of the book series: This collection of four textbooks in the Electroscience series span the undergraduate-to-graduate education in electrosciences for engineering and science students. It culminates in a comprehensive under-standing of nanoscale devices—electronic, magnetic, mechanical and optical in the 4th volume, and builds to it through volumes devoted to underlying semiconductor and solid-state physics with an emphasis on phenomena at surfaces and interfaces, energy interaction, and fluctuations; a volume devoted to the understanding of the variety of devices through classical microelectronic approach, and an engineering-focused understanding of principles of quantum, statistical and information mechanics. The goal is provide, with rigor and comprehensiveness, an exposure to the breadth of knowledge and interconnections therein in this subject area that derives equally from sciences and engineering. By completing this through four integrated texts, it circumvents what is taught ad hoc and incompletely in a larger number of courses, or not taught at all. A four course set makes it possible for the teaching curriculum to be more comprehensive in this and related advancing areas of technology. It ends at a very modern point, where researchers in the subject area would also find the discussion and details an important reference source.
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43

Colin E.C. Wood (Editor), A. G. Perera (Editor), Deborah Taylor (Editor), Phillip Broussard (Editor), J. D. Adam (Editor), and Maurice H. Francombe (Editor), eds. Handbook of Thin Film Devices, Volumes 1-5: Frontiers of Research, Technology and Applications. Academic Press, 2000.

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44

Colin E.C. Wood (Editor), A. G. Perera (Editor), Deborah Taylor (Editor), Phillip Broussard (Editor), J. D. Adam (Editor), and Maurice H. Francombe (Editor), eds. Handbook of Thin Film Devices, Volumes 1-5: Frontiers of Research, Technology and Applications. Academic Press, 2000.

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45

Italy) International School of Solid State Physics 1999 (Erice and F. M. D'Heurle. Silicides: Fundamentals and Applications. World Scientific Publishing Company, 2001.

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