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Explores theoretical and experimental studies of the properties of
one-dimensional photonic crystals. The authors also consider the
possibilities of controlling the characteristics of microwave
photonic crystals with the help of electric and magnetic fields and
provide examples of new fields of application of microwave photonic
crystals. They review measurements of the parameters of layered
structures containing nanometer-sized semiconductor and metal
layers and explore microwave-compatible loads. Written for
specialists and scientists working in the fields of radiophysics,
microwave solid-state electronics, and microwave photonics. Key
selling features: Presents studies of theoretical and experimental
properties of one-dimensional photonic crystals Analyzes microwave
photonic crystals based on flat transmission lines. Explores the
use of electric and magnetic fields to control crystal
characteristics. Reviews applications of photonic crystals in
semiconductors. Examines one-dimensional microwave photonic
crystals based on rectangular wave guides.
This book is the result of the contributions coming from the more
than thirty key rd speakers of the 3 international Workshop on
Nonlinear Microwave Magnetics held in th Roma, Italy from the 3rd
to the 6 of October 1995. Since the 1990, in Ulyanovsk, when the
Russian Academy of Sciences promoted the first Workshop of the
series, the basic idea was to have a sort of Institutional Meeting
collecting Scientists of the Magnetics Community devoted to Spin
Wave Electronics at Microwave Frequencies. It was a succesful
organization, and the birth of an effective interaction between
eastern and western researchers overcame the meaning of the
Workshop itself. Three years later, in Irvine, California, 1993,
the Spin Wave Community was joined again. It was clear that the
growing interest on hot topics of Nonlinear Microwave Magnetics
involving both, applicative and fundamental aspects of microwave
magnetic media, favoured the organization of further meetings on
the same subject. So far, during the social dinner, in the middle
between a serious proposal and the joke encouraged by the
Californian Wine, Roma was proposed as the third place for the
Workshop. Day after day, the joke became serious, and it was
possible to solve the financial and logistic problems in time for
the predicted deadline.
This book is the result of the contributions coming from the more
than thirty key rd speakers of the 3 international Workshop on
Nonlinear Microwave Magnetics held in th Roma, Italy from the 3rd
to the 6 of October 1995. Since the 1990, in Ulyanovsk, when the
Russian Academy of Sciences promoted the first Workshop of the
series, the basic idea was to have a sort of Institutional Meeting
collecting Scientists of the Magnetics Community devoted to Spin
Wave Electronics at Microwave Frequencies. It was a succesful
organization, and the birth of an effective interaction between
eastern and western researchers overcame the meaning of the
Workshop itself. Three years later, in Irvine, California, 1993,
the Spin Wave Community was joined again. It was clear that the
growing interest on hot topics of Nonlinear Microwave Magnetics
involving both, applicative and fundamental aspects of microwave
magnetic media, favoured the organization of further meetings on
the same subject. So far, during the social dinner, in the middle
between a serious proposal and the joke encouraged by the
Californian Wine, Roma was proposed as the third place for the
Workshop. Day after day, the joke became serious, and it was
possible to solve the financial and logistic problems in time for
the predicted deadline.
Explores theoretical and experimental studies of the properties of
one-dimensional photonic crystals. The authors also consider the
possibilities of controlling the characteristics of microwave
photonic crystals with the help of electric and magnetic fields and
provide examples of new fields of application of microwave photonic
crystals. They review measurements of the parameters of layered
structures containing nanometer-sized semiconductor and metal
layers and explore microwave-compatible loads. Written for
specialists and scientists working in the fields of radiophysics,
microwave solid-state electronics, and microwave photonics. Key
selling features: Presents studies of theoretical and experimental
properties of one-dimensional photonic crystals Analyzes microwave
photonic crystals based on flat transmission lines. Explores the
use of electric and magnetic fields to control crystal
characteristics. Reviews applications of photonic crystals in
semiconductors. Examines one-dimensional microwave photonic
crystals based on rectangular wave guides.
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