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The inspirational ideas of Advocate General Francis Jacobs have
been drawn together here for the first time in one volume. Fifteen
leading EU law practitioners and academics have contributed,
including both Sir Francis's predecessor and his successor,
covering topics of current discussion in this continually evolving
field. Each contributor deals with a discrete topic of EU law and
discusses its evolution to date, its current state and its future
development, always with specific reference to Sir Francis's
opinions. Covering a diverse range of EU law topics, this book will
be of great interest to anyone seeking a greater insight into the
workings of the European Court of Justice and the role of the
Advocate General, and also for anyone involved in the academic
study of EU law or practising and litigating in the field. Making
Community Law should provide a rich treasury of ideas, explaining
both the current state of EU jurisprudence as well as considering
the next steps in the making of EU law.
This dissertation provides the first systematic analysis of the
dynamic energy efficiency of vertical-cavity surface-emitting
lasers (VCSELs) for optical interconnects, a key technology to
address the pressing ecological and economic issues of the
exponentially growing energy consumption in data centers.
Energy-efficient data communication is one of the most important
fields in "Green Photonics" enabling higher bit rates at
significantly reduced energy consumption per bit. In this thesis
the static and dynamic properties of GaAs-based oxide-confined
VCSELs emitting at 850 nm and 980 nm are analyzed and general rules
for achieving energy-efficient data transmission using VCSELs at
any wavelength are derived. These rules are verified in data
transmission experiments leading to record energy-efficient data
transmission across a wide range of multimode optical fiber
distances and at high temperatures up to 85 DegreesC. Important
trade-offs between energy efficiency, temperature stability,
modulation bandwidth, low current-density operation and other VCSEL
properties are revealed and discussed.
This dissertation provides the first systematic analysis of the
dynamic energy efficiency of vertical-cavity surface-emitting
lasers (VCSELs) for optical interconnects, a key technology to
address the pressing ecological and economic issues of the
exponentially growing energy consumption in data centers.
Energy-efficient data communication is one of the most important
fields in "Green Photonics" enabling higher bit rates at
significantly reduced energy consumption per bit. In this thesis
the static and dynamic properties of GaAs-based oxide-confined
VCSELs emitting at 850 nm and 980 nm are analyzed and general rules
for achieving energy-efficient data transmission using VCSELs at
any wavelength are derived. These rules are verified in data
transmission experiments leading to record energy-efficient data
transmission across a wide range of multimode optical fiber
distances and at high temperatures up to 85 DegreesC. Important
trade-offs between energy efficiency, temperature stability,
modulation bandwidth, low current-density operation and other VCSEL
properties are revealed and discussed.
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