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This book provides a comprehensive overview of the state-of-the-art
in the development of semiconductor nanostructures and nanophotonic
devices. It covers epitaxial growth processes for GaAs- and
GaN-based quantum dots and quantum wells, describes the fundamental
optical, electronic, and vibronic properties of nanomaterials, and
addresses the design and realization of various nanophotonic
devices. These include energy-efficient and high-speed vertical
cavity surface emitting lasers (VCSELs) and ultra-small
metal-cavity nano-lasers for applications in multi-terabus systems;
silicon photonic I/O engines based on the hybrid integration of
VCSELs for highly efficient chip-to-chip communication;
electrically driven quantum key systems based on q-bit and
entangled photon emitters and their implementation in real
information networks; and AlGaN-based deep UV laser diodes for
applications in medical diagnostics, gas sensing, spectroscopy, and
3D printing. The experimental results are accompanied by reviews of
theoretical models that describe nanophotonic devices and their
base materials. The book details how optical transitions in the
active materials, such as semiconductor quantum dots and quantum
wells, can be described using a quantum approach to the dynamics of
solid-state electrons under quantum confinement and their
interaction with phonons, as well as their external pumping by
electrical currents. With its broad and detailed scope, this book
is indeed a cutting-edge resource for researchers, engineers and
graduate-level students in the area of semiconductor materials,
optoelectronic devices and photonic systems.
This book provides a comprehensive overview of the state-of-the-art
in the development of semiconductor nanostructures and nanophotonic
devices. It covers epitaxial growth processes for GaAs- and
GaN-based quantum dots and quantum wells, describes the fundamental
optical, electronic, and vibronic properties of nanomaterials, and
addresses the design and realization of various nanophotonic
devices. These include energy-efficient and high-speed vertical
cavity surface emitting lasers (VCSELs) and ultra-small
metal-cavity nano-lasers for applications in multi-terabus systems;
silicon photonic I/O engines based on the hybrid integration of
VCSELs for highly efficient chip-to-chip communication;
electrically driven quantum key systems based on q-bit and
entangled photon emitters and their implementation in real
information networks; and AlGaN-based deep UV laser diodes for
applications in medical diagnostics, gas sensing, spectroscopy, and
3D printing. The experimental results are accompanied by reviews of
theoretical models that describe nanophotonic devices and their
base materials. The book details how optical transitions in the
active materials, such as semiconductor quantum dots and quantum
wells, can be described using a quantum approach to the dynamics of
solid-state electrons under quantum confinement and their
interaction with phonons, as well as their external pumping by
electrical currents. With its broad and detailed scope, this book
is indeed a cutting-edge resource for researchers, engineers and
graduate-level students in the area of semiconductor materials,
optoelectronic devices and photonic systems.
This book provides a comprehensive overview of the state-of-the-art
in group III-nitride based ultraviolet LED and laser technologies,
covering different substrate approaches, a review of optical,
electronic and structural properties of InAlGaN materials as well
as various optoelectronic components. In addition, the book gives
an overview of a number of key application areas for UV emitters
and detectors, including water purification, phototherapy, sensing,
and UV curing. The book is written for researchers and graduate
level students in the area of semiconductor materials,
optoelectronics and devices as well as developers and engineers in
the various application fields of UV emitters and detectors.
This book provides a comprehensive overview of the state-of-the-art
in group III-nitride based ultraviolet LED and laser technologies,
covering different substrate approaches, a review of optical,
electronic and structural properties of InAlGaN materials as well
as various optoelectronic components. In addition, the book gives
an overview of a number of key application areas for UV emitters
and detectors, including water purification, phototherapy, sensing,
and UV curing. The book is written for researchers and graduate
level students in the area of semiconductor materials,
optoelectronics and devices as well as developers and engineers in
the various application fields of UV emitters and detectors.
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