Tunable nonreciprocal thermal emitter based on metal grating and graphene

1987 ◽

Vol 45 ◽

pp. 132-133

Author(s):

P. E. Batson

Keyword(s):

High Resolution ◽

Energy Loss ◽

Electron Probe ◽

Collection Efficiency ◽

Electron Sources ◽

Wien Filter ◽

Half Angle ◽

Thermal Emitter ◽

Electron Energy Loss ◽

Intrinsic Energy

In recent years,instrumentation for electron energy loss spectroscopy (EELS) has been steadily improved to increase energy resolution and collection efficiency. At present 0.40eV at 10mR collection half angle is available with commercial magnetic sectors (e.g. Gatan, Inc. and VG Microscopes, Ltd.), and 70meV at 10mR has been demonstrated by use of a Wien filter within a large deceleration field. When these high resolution spectrometers are coupled to the modern small electron probe instrument, we obtain a tool which promises to reveal local changes in bandstructure and bonding near defects and interfaces in heterogeneous materials.Unfortunately, typical electron sources have intrinsic energy widths which limit attainable spectroscopic resolution in the absence of some monochromation system. For instance, the W thermal emitter has a half width of about 1eV.

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Estimation of Surface Waves along a Metal Grating Using an Equivalent Impedance Model

IEICE Transactions on Electronics ◽

10.1587/transele.e95.c.717 ◽

2012 ◽

Vol E95-C (4) ◽

pp. 717-724

Author(s):

Michinari SHIMODA ◽

Toyonori MATSUDA ◽

Kazunori MATSUO ◽

Yoshitada IYAMA

Keyword(s):

Surface Waves ◽

Impedance Model ◽

Metal Grating ◽

Equivalent Impedance

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Development of Ultra-Low Noise, High Sensitivity Planar Metal Grating Coupled III-V Multiquantum Well Infrared Detectors for Focal Plane Array Staring IR Sensor Systems

10.21236/ada265599 ◽

1993 ◽

Author(s):

Shang S. Li

Keyword(s):

Focal Plane ◽

Infrared Detectors ◽

High Sensitivity ◽

Focal Plane Array ◽

Low Noise ◽

Sensor Systems ◽

Metal Grating ◽

Ir Sensor ◽

Ultra Low Noise ◽

Multiquantum Well

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Hyperspectral Molecular Orientation Mapping in Metamaterials

Applied Sciences ◽

10.3390/app11041544 ◽

2021 ◽

Vol 11 (4) ◽

pp. 1544

Author(s):

Meguya Ryu ◽

Yoshiaki Nishijima ◽

Shinya Morimoto ◽

Naoki To ◽

Tomoki Hashizume ◽

...

Keyword(s):

Molecular Orientation ◽

Field Enhancement ◽

Chemical Mapping ◽

Metal Insulator ◽

Orientation Mapping ◽

Metal Insulator Metal ◽

Finger Printing ◽

Thermal Emitter ◽

Ir Bands ◽

Sub Wavelength

The four polarisation method is adopted for measurement of molecular orientation in dielectric nanolayers of metal-insulator-metal (MIM) metamaterials composed of gold nanodisks on polyimide and gold films. Hyperspectral mapping at the chemical finger printing spectral range of 4–20 μμm was carried out for MIM patterns of 1–2.5 μμm period (sub-wavelength). Overlay images taken at 0,π4,π2,3π4 orientation angles and subsequent baseline compensation are shown to be critically important for the interpretation of chemical mapping results and reduction of spurious artefacts. Light field enhancement in the 60-nm-thick polyimide (I in MIM) was responsible for strong absorption at the characteristic polyimide bands. Strong absorbance A at narrow IR bands can be used as a thermal emitter (emittance E=1−R), where R is the reflectance and A=1−R−T, where for optically thick samples the transmittance is T=0.

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