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TY  - BOOK
ID  - 145732917
TI  - Nanodevices for Microwave and Millimeter Wave Applications
PY  - 2020
PB  - Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute
DB  - UniCat
KW  - Technology: general issues
KW  - frequency doubler
KW  - broadband matching
KW  - Schottky diodes
KW  - self-bias resistor
KW  - conversion loss
KW  - three-dimensional electromagnetic (3D-EM) model
KW  - millimeter wave
KW  - terahertz
KW  - high-gain
KW  - compact
KW  - wideband
KW  - resonant cavity
KW  - Fabry-Perot cavity
KW  - cavity resonator
KW  - EBG resonator
KW  - J band
KW  - MEMS
KW  - switch
KW  - microwave
KW  - ferromagnetic
KW  - laser processing
KW  - substrate integrated waveguide
KW  - nanowire
KW  - multi-wall carbon nanotubes
KW  - microwave impedance
KW  - small antennas
KW  - gas sensors
KW  - acetone detection
KW  - microwave application
KW  - UV illumination
KW  - low-noise amplifier (LNA)
KW  - frequency-reconfigurable LNA
KW  - multimodal circuit
KW  - SiGe BiCMOS
KW  - hetero junction bipolar transistor (HBT)
KW  - RF switch
KW  - frequency doubler
KW  - broadband matching
KW  - Schottky diodes
KW  - self-bias resistor
KW  - conversion loss
KW  - three-dimensional electromagnetic (3D-EM) model
KW  - millimeter wave
KW  - terahertz
KW  - high-gain
KW  - compact
KW  - wideband
KW  - resonant cavity
KW  - Fabry-Perot cavity
KW  - cavity resonator
KW  - EBG resonator
KW  - J band
KW  - MEMS
KW  - switch
KW  - microwave
KW  - ferromagnetic
KW  - laser processing
KW  - substrate integrated waveguide
KW  - nanowire
KW  - multi-wall carbon nanotubes
KW  - microwave impedance
KW  - small antennas
KW  - gas sensors
KW  - acetone detection
KW  - microwave application
KW  - UV illumination
KW  - low-noise amplifier (LNA)
KW  - frequency-reconfigurable LNA
KW  - multimodal circuit
KW  - SiGe BiCMOS
KW  - hetero junction bipolar transistor (HBT)
KW  - RF switch
UR  - https://www.unicat.be/uniCat?func=search&query=sysid:145732917
AB  - The microwave and millimeter wave frequency range is nowadays widely exploited in a large variety of fields including (wireless) communications, security, radar, spectroscopy, but also astronomy and biomedical, to name a few. This Special Issue focuses on the interaction between the nanoscale dimensions and centimeter to millimeter wavelengths. This interaction has been proven to be efficient for the design and fabrication of devices showing enhanced performance. Novel contributions are welcome in the field of devices based on nanoscaled geometries and materials. Applications cover, but not are limited to, electronics, sensors, signal processing, imaging and metrology, all exploiting nanoscale/nanotechnology at microwave and millimeter waves. Contributions can take the form of short communications, regular or review papers.
ER  -