Category Archives: biologically integrated organic semiconductors nanoscale photonic optical crystal meta-material RFID tracking and remote brain control in vivo implanted human genetic modifications

Theory INTRODUCTION TO INFRARED (IR) optics, physics, technology.(I.R. can penetrate the skin and bone and effect the brain/nanotechnology designed to receive it (Quantum dots)…

All objects with an absolute temperature over 0 K emit infrared (IR) radiation. Infrared radiant energy is determined by the temperature and emissivity of an object and is characterized by wavelengths ranging from 0.76 (the red edge of the visible range) to 1000 μm (beginning of microwaves range). The higher the temperature of an object, the higher the spectral radiant energy, or emittance, at all wavelengths and the shorter the peak wavelength of the emissions. Due to limitations on detector range, IR radiation is often divided into three smaller regions based on the response of various detectors

IR radiation has small energy when compared to Visibile or UV rays (energy is inversely proportional to wavelength), these detectors are cooled down to cryogenic temperatures in order to increase infrared detection efficiency/sensitivity. Cooling methods include Stirling cycle engines, liquid nitrogen and thermoelectric cooling (). Cooled thermal imaging cameras are the most sensitive type of cameras to small differences in scene temperature.
Quantum detectors react very quickly to changes in IR levels (response time order of μs), however they have response curves with detectivity that varies strongly with wavelength.
Cooled quantum detector materials include – InSb, – InGaAs, – PbS, – PbSe, – HgCdTe (MCT).

Short-wave infrared (0.9 to 1.7 µm): mainly InGaAs detectors cover this region
Mid-wave infrared (3 to 5 µm): covered by Indium antimonide (InSb), HgCdTe and partially by lead selenide (PbSe)
Long-wave infrared (8 to 14 µm): this region is covered by HgCdTe and microbolometers

COMMON INFRARED (IR) MATERIALS

Zinc Selenide (ZnSe)
Zinc Sulfide (ZnS)
Zinc Sulfide MultiSpectral (ZnS MS)
Germanium (Ge)
Gallium Arsenide (GaAs)
Silicon (Si)

OPTICAL COATINGS

ANTI-REFLECTIVE AR COATING

Anti-reflective (AR) coatings are thin films applied to surfaces to reduce their reflectivity through optical interference. An AR coating typically consists of a carefully constructed stack of thin layers with different refractive indices. The internal reflections of these layers interfere with each other so that a wave peak and a wave trough come together and extinction occurs, leading to an overall reflectance lower than that of the bare substrate surface. Anti-reflection coatings are included on most refractive optics and are used to maximize throughput and reduce ghosting. Perhaps the simplest, most common anti-reflective coating consists of a single layer of Magnesium Fluoride (MgF2), which has a very low refractive index (approx. 1.38 at 550 nm)

HARD CARBON ANTI-REFLECTIVE HCAR COATING

HCAR is an optical coating commonly applied to Silicon and Germanium designed to meet the needs of those applications with optical elements exposed to harsh environments, such as military vehicles and outdoor thermal cameras. This coating offers highly protective properties coupled with good anti-reflective performance, protecting the outer optical surfaces from high velocity airborne particles, seawater, engine fuel and oils, high humidity, improper handling, etc.. It offers great resistance to abrasion, salts, acids, alkalis, and oil. Continue reading

Posted in bio-nano brain control implantation technology & effects, biologically integrated organic semiconductors nanoscale photonic optical crystal meta-material RFID tracking and remote brain control in vivo implanted human genetic modifications, Coercive Technology 'non-lethal' weapons Microwave Mind Control, INFRARED (IR) OPTICS OPTOGENETICS NANOTECHNOLOGY AND THE BUILDING BLOCKS AND CONCEPTS TO UNDERSTAND PSYCHOTRONIC ELECTROMAGNETIC NON-KINETIC ENERGY BASED WEAPONS AND MIND CONTROL VIA REMOTE NEURAL MON | Tagged , , , , , , , , , , , , , , , , , , , , , , , , , , , , , | 1 Comment

Birefringence, birefractive, optically anisotropic materials, dual polarization interferometry, optical crystal physics: More theory to help one understand the technology of energy based surveillance, electronic harassment and weapons

Birefringence: The phenomenon in terms of polarization, understanding light as a wave with field components in transverse polarizations (perpendicular to the direction of the wave vector).
A crystal with its optic axis in this orientation, parallel to the optical surface, may be used to create a waveplate, in which there is no distortion of the image but an intentional modification of the state of polarization of the incident wave.
For instance, a quarter-wave plate is commonly used to create circular polarization from a linearly polarized source.
Similarly, light modulators modulate the intensity of light through electrically induced birefringence of polarized light followed by a polarizer.
Birefringence can be observed in amyloid plaques such as are found in the brains of Alzheimer’s patients when stained with a dye such as Congo Red.
In ophthalmology, scanning laser polarimetry utilises the birefringence of the optic nerve fibre layer to indirectly quantify its thickness,
The study of birefringence in shear waves traveling through the solid earth is widely used in seismology. Birefringence is widely used in mineralogy to identify rocks, minerals, and gemstones.
Birefringence results when a material’s permittivity is not describable using a scalar value, but requires a tensor to relate the electric displacement (D) with the electric field (E). Continue reading

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Circular polarization of EM wave or PHOTONIC energy yields a DOUBLE HELIX radiation pattern

Circular polarization of EM wave or PHOTONIC energy yields a DOUBLE HELIX radiation pattern!

Since this is an electromagnetic wave each electric field vector has a corresponding, but not illustrated, magnetic field vector that is at a right angle to the electric field vector and proportional in magnitude to it.

As a result, the magnetic field vectors would trace out a second helix if displayed

Circular dichroism (CD) is the differential absorption of left- and right-handed circularly polarized light. Circular dichroism is the basis of a form of spectroscopy that can be used to determine the optical isomerism and secondary structure of molecules.

In general, this phenomenon will be exhibited in absorption bands of any optically active molecule.

As a consequence, circular dichroism is exhibited by most biological molecules, because of the dextrorotary (e.g. some sugars) and levorotary (e.g. some amino acids) molecules they contain.

Noteworthy as well is that a secondary structure will also impart a distinct CD to its respective molecules.

Therefore, the alpha helix, beta sheet and random coil regions of proteins and the double helix of nucleic acids have CD spectral signatures representative of their structures.

Also, under the right conditions, even non-chiral molecules will exhibit magnetic circular dichroism, that is, circular dichroism induced by a magnetic field.

Continue reading

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Photonic crystals, nanoscale, graphene,meta-materials, science that makes up biologically integrated RFID and remote brain monitoring and control

Photonic crystals are composed of periodic dielectric, metallo-dielectric or even superconductor microstructures or nanostructures that affect the propagation of electromagnetic waves (EM) in the same way as the periodic potential in a semiconductor crystal affects the electron motion by defining allowed and forbidden electronic energy bands.

Photonic crystals contain regularly repeating regions of high and low dielectric constant. Photons (behaving as waves) propagate through this structure – or not – depending on their wavelength. Wavelengths that are allowed to travel are known as modes; groups of allowed modes form bands. Disallowed bands of wavelengths are called photonic band gaps. This gives rise to distinct optical phenomena such as inhibition of spontaneous emission, high-reflecting omni-directional mirrors and low-loss-waveguiding.

The periodicity of the photonic crystal structure must be around half the wavelength of the electromagnetic waves that are to be diffracted. This is ~200 nm (blue) to 350 nm (red) for photonic crystals operating in the visible part of the spectrum

a property of the electromagnetic fields known as scale invariance – in essence, the electromagnetic fields, as the solutions to Maxwell’s equations, has no natural length scale,solutions for centimeter scale structure at microwave frequencies are the same as for nanometer scale structures at optical frequencies. Continue reading

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