Quantum Mechanics: An Introduction for Device Physicists and Electrical Engineers, Third Edition provides a complete course in quantum mechanics for students of semiconductor device physics and electrical engineering. It provides the necessary background to quantum theory for those starting work on micro- and nanoelectronic structures and is particularly useful for those beginning work with modern semiconductors devices, lasers, and qubits. This book was developed from a course the author has taught for many years with a style and order of presentation of material specifically designed for this audience. It introduces the main concepts of quantum mechanics which are important in everyday solid-state physics and electronics. Each topic includes examples which have been carefully chosen to draw upon relevant experimental research. It also includes problems with solutions to test understanding of theory. Full updated throughout, the third edition contains the latest developments, experiments, and device concepts, in addition to three fully revised chapters on operators and expectations and spin angular momentum, it contains completely new material on superconducting devices and approaches to quantum computing.

Quantum Mechanics: An Introduction for Device Physicists and Electrical Engineers, Third Edition provides a complete course in quantum mechanics for students of semiconductor device physics and electrical engineering. It provides the necessary background to quantum theory for those starting work on micro- and nanoelectronic structures and is particularly useful for those beginning work with modern semiconductors devices, lasers, and qubits. This book was developed from a course the author has taught for many years with a style and order of presentation of material specifically designed for this audience. It introduces the main concepts of quantum mechanics which are important in everyday solid-state physics and electronics. Each topic includes examples which have been carefully chosen to draw upon relevant experimental research. It also includes problems with solutions to test understanding of theory. Full updated throughout, the third edition contains the latest developments, experiments, and device concepts, in addition to three fully revised chapters on operators and expectations and spin angular momentum, it contains completely new material on superconducting devices and approaches to quantum computing.

Technological advancement in chip development, primarily based on the downscaling of the feature size of transistors, is threatening to come to a standstill as we approach the limits of conventional scaling. For example, when the number of electrons in a device's active region is reduced to less than ten electrons (or holes), quantum fluctuation errors will occur, and when gate insulator thickness becomes too insignificant to block quantum mechanical tunneling, unacceptable leakage will occur. Fortunately, there is truth in the old adage that whenever a door closes, a window opens somewhere else. In this case, that window opening is nanotechnology. Silicon Nanoelectronics takes a look at at the recent development of novel devices and materials that hold great promise for the creation of still smaller and more powerful chips. Silicon nanodevices are positoned to be particularly relevant in consideration of the existing silicon process infrastructure already in place throughout the semiconductor industry and silicon's consequent compatibility with current CMOS circuits. This is reinforced by the nearly perfect interface that can exist between natural oxide and silicon. Presenting the contributions of more than 20 leading academic and corporate researchers from the United States and Japan, Silicon Nanoelectronics offers a comprehensive look at this emergent technology. The text includes extensive background information on the physics of silicon nanodevices and practical CMOS scaling. It considers such issues as quantum effects and ballistic transport and resonant tunneling in silicon nanotechnology. A significant amount of attention is given to the all-important silicon single electron transistors and the devices that utilize them. In offering an update of the current state-of-the-art in the field of silicon nanoelectronics, this volume serves well as a concise reference for students, scientists, engineers, and specialists in various fields, in

Using Schumann's Eichendorff Liederkreis as the primary example, this book sheds new light on the structure of nineteenth century song cycles and on the Schumann's particular response to the problem of musical coherence in large scale works. Drawing on analysis, literary criticism, and source studies, this book argues for a new conception of the nineteenth-century song cycle. Rather than a unified whole, the cycle is seen as a fragmentary and open-ended form that enables Schumann to express the romantic themes of transcendence and ineffability in musical terms. THe book begins with a general discussion of the cycle as a genre. The heart of the book is a series of closely argued analyses of five of the Eichendorff songs, with particular attention on the relationship between text and music. Ferris concludes by setting the Liederkreis within the context of Schumann's other 1840 song cycles.

John Dryden called Virgil's "Georgics," written between 37 and 30 B.C.E., "the best poem by the best poet." The poem, newly translated by the poet and translator David Ferry, is one of the great songs, maybe the greatest we have, of human accomplishment in difficult--and beautiful--circumstances, and in the context of all we share in nature.
The "Georgics" celebrates the crops, trees, and animals, and, above all, the human beings who care for them. It takes the form of teaching about this care: the tilling of fields, the tending of vines, the raising of the cattle and the bees. There's joy in the detail of Virgil's descriptions of work well done, and ecstatic joy in his praise of the very life of things, and passionate commiseration too, because of the vulnerability of men and all other creatures, with all they have to contend with: storms, and plagues, and wars, and all mischance.

At the close of the nineteenth century, we stood on the threshold of one of the greatest periods of science, in which the entire world and understanding of science would be shaken to the core and greatly modified. This explosion of knowledge led ultimately to that same information revolution that we live in today. Planck and Einstein showed that light was not continuous but made of small corpuscles that today we call photons. Einstein changed the understanding of mechanics with his theory of relativity: airplanes became conceivable; radio and television blossomed; and the microelectronics industry, which drives most of modern technology, came into being. New areas of science were greatly expanded and developed, and one of these was quantum mechanics, which is the story to be told here. Yet, the development of quantum mechanics and the leadership of Niels Bohr have distorted the understanding of quantum mechanics in a strange way. There are some who would say that Bohr set back the real understanding of quantum mechanics by half a century. I believe they underestimate his role, and it may be something more like a full century. Whether we call it the Copenhagen interpretation, or the Copenhagen orthodoxy, it is the how for the continuing mysticism provided by Mach that is still remaining in quantum mechanics. It is not the why. Why it perseveres and why it was forced on the field in the first place is an important perception to be studied. In this book, I want to trace the development of quantum mechanics and try to uncover the why.

The study of Greece as an icon of culture appears to be as old as Greece itself, as if, like Pallas Athene springing from the head of Zeus, its cultural significance had attained full maturity at birth. In "Silent Urns, " the author reveals how Greece attained such significance as the result of the attempt to reconcile individuality, freedom, history, and modernity in eighteenth-century aesthetics. He argues that Winckelmann's "History of Ancient Art" (1764) produced this reconciliation by developing a concept of culture that effectively defined our modern understanding of the term, as well as our sense of what it is to be modern. From this reconciliation, Greece emerges as the form in which culture is first conceptualized as a historically and politically defined category.
In readings of works by Keats, Schelling, Aeschylus, Shelley, and Holderlin, the author studies different aspects of Winckelmann's conceptualization of culture as it passes into Romantic Hellenism. Through these readings--in which individuality, identity, freedom, the tragic, and memory are all discussed--the book demonstrates how Romanticism took issue with the legacy of Greece that emerged in the eighteenth century, and did so in the name of a freedom that our cultural modernity no longer recalls.

The study of Greece as an icon of culture appears to be as old as Greece itself, as if, like Pallas Athene springing from the head of Zeus, its cultural significance had attained full maturity at birth. In "Silent Urns, " the author reveals how Greece attained such significance as the result of the attempt to reconcile individuality, freedom, history, and modernity in eighteenth-century aesthetics. He argues that Winckelmann's "History of Ancient Art" (1764) produced this reconciliation by developing a concept of culture that effectively defined our modern understanding of the term, as well as our sense of what it is to be modern. From this reconciliation, Greece emerges as the form in which culture is first conceptualized as a historically and politically defined category.
In readings of works by Keats, Schelling, Aeschylus, Shelley, and Holderlin, the author studies different aspects of Winckelmann's conceptualization of culture as it passes into Romantic Hellenism. Through these readings--in which individuality, identity, freedom, the tragic, and memory are all discussed--the book demonstrates how Romanticism took issue with the legacy of Greece that emerged in the eighteenth century, and did so in the name of a freedom that our cultural modernity no longer recalls.

Technological advancement in chip development, primarily based on the downscaling of the feature size of transistors, is threatening to come to a standstill as we approach the limits of conventional scaling. For example, when the number of electrons in a device's active region is reduced to less than ten electrons (or holes), quantum fluctuation errors will occur, and when gate insulator thickness becomes too insignificant to block quantum mechanical tunneling, unacceptable leakage will occur. Fortunately, there is truth in the old adage that whenever a door closes, a window opens somewhere else. In this case, that window opening is nanotechnology. Silicon Nanoelectronics takes a look at at the recent development of novel devices and materials that hold great promise for the creation of still smaller and more powerful chips. Silicon nanodevices are positoned to be particularly relevant in consideration of the existing silicon process infrastructure already in place throughout the semiconductor industry and silicon's consequent compatibility with current CMOS circuits. This is reinforced by the nearly perfect interface that can exist between natural oxide and silicon. Presenting the contributions of more than 20 leading academic and corporate researchers from the United States and Japan, Silicon Nanoelectronics offers a comprehensive look at this emergent technology. The text includes extensive background information on the physics of silicon nanodevices and practical CMOS scaling. It considers such issues as quantum effects and ballistic transport and resonant tunneling in silicon nanotechnology. A significant amount of attention is given to the all-important silicon single electron transistors and the devices that utilize them. In offering an update of the current state-of-the-art in the field of silicon nanoelectronics, this volume serves well as a concise reference for students, scientists, engineers, and specialists in various fields, in

The information revolution would have been radically different, or impossible, without the use of the materials known generically as semiconductors. The properties of these materials, particularly the potential for doping with impurities to create transistors and diodes and controlling the local potential by gates, are essential for microelectronics.
Semiconductor Transport is an introductory text on electron transport in semiconductor materials and is written for advanced undergraduates and graduate students. The book provides a thorough treatment of modern approaches to the transport properties of semiconductors and their calculation. It also introduces those aspects of solid state physics, which are vitally important for understanding transport in them.

This volume represents the most ambitious project of distinguished poet David Ferry's life: a complete translation of Virgil's Aeneid. Ferry has long been known as the foremost contemporary translator of Latin poetry, and his translations of Virgil's Eclogues and Georgics have become standards. He brings to the Aeneid the same genius, rendering Virgil's formal, metrical lines into an English that is familiar, all while surrendering none of the poem's original feel of the ancient world. In Ferry's hands, the Aeneid becomes once more a lively, dramatic poem of daring and adventure, of love and loss, devotion and death. The paperback and e-book editions include a new introduction by Richard F. Thomas, along with a new glossary of names that makes the book even more accessible for students and for general readers coming to the Aeneid for the first time who may need help acclimating to Virgil's world.

In 2012, David Ferry capped a long career as a poet with a National Book Award, given in honor of his book Bewilderment: New Poems and Translations. But he had no interest in resting on his laurels. In fact, he was in the middle of the most ambitious poetic project of his life. Six years earlier, at age eighty-two, he had embarked on a complete translation of one of the foundational works of Western culture: Virgil's Aeneid. Now we have it, and it is a glorious thing. Ferry has long been known as perhaps the foremost contemporary translator of Latin poetry, his translations of Virgil's Eclogues and Georgics having established themselves as much-admired standards. He brings to the Aeneid the same genius, rendering Virgil's formal, metrical lines into an English that is familiar and alive. Yet in doing so, he surrenders none of the feel of the ancient world that resonates throughout the poem and gives it the power that has drawn readers to it for centuries. In Ferry's hands, the Aeneid becomes once more a lively, dramatic poem of daring and adventure, of love and loss, devotion and death. Never before have Virgil's twin gifts of poetic language and fleet storytelling been presented so powerfully for English-language readers. Ferry's Aeneid will be a landmark, a gift to longtime lovers of Virgil and the perfect entry point for new readers. "I sing of arms and the man ..." The epic journey, from the fall of Troy to the founding of Rome, is ready to begin. Join us.

"David Ferry must have had something up his sleeve when he called his book "Strangers," because his is a poetry of intimacy and familiarity. More than that, Mr. Ferry's short, sparse lyrics are as perfectly and simply composed as Japanese haiku--a rare accomplishment in poetry written in English."--Andy Brumer, "New York Times Book Review"
""Strangers" is a remarkably good book for a reader sufficiently attentive to hear its quiet power, to let it work in its distinctive way."--"Boston Globe"
"The poems of David Ferry's "Strangers" are in fact one book, and it is a splendid one. There is the same austere and poignant voice throughout, asking the unanswerable things, speaking of all that is withheld from us, confronting the unknownness that dwells even in the familiar and dear. Painful and touching, the book offers a distinctive vision which is at the same time inescapably true."--Richard Wilbur

In her painting, Helene Appel reflects the things of everyday life with high precision. Whether it is a piece of meat, lettuce leaves, fishing nets, twigs, plastic bags or puddles, Appel presents her cropped subjects in plan view, on untreated canvas in a realistic scale. If one takes a closer look, though, this attitude reveals its radical nature. Detaching herself completely from the tradition of still life, Appel does not strive to develop a painterly signature, does not emphasize her distinctive ductus. Instead, she carefully seeks an adequate mode of expression for each of her pictorial objects, thus emphasizing their particular physical presence. Despite the realistic representation, Appel's works evoke a sense of a high degree of abstraction. The impression is that of a distanced look that creates a tension between the familiar and the unaccustomed questioning the relationship we have to our environment.