Terahertz time-domain differentiator
First Claim
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1. A time-domain differentiator comprising:
- a signal source providing a polarized input electromagnetic wave having a wavelength, a skin depth, a polarization vector, and a beam diameter;
a transmission grating having a grating face with an area greater than the beam diameter and disposed to receive the polarized input electromagnetic wave incident the grating face and diffract the polarized input electromagnetic wave, providing a zero-order diffraction, the grating face comprising parallel conductors having a period less than the wavelength and a thickness greater than the skin depth, the conductors being oriented essentially parallel to the polarization vector of the polarized input electromagnetic wave; and
an aperture sized and positioned to capture only the zero-order diffraction of the diffracted polarized input electromagnetic wave, the zero-order diffraction being an electromagnetic wave essentially equivalent to a time-domain derivative of the polarized input electromagnetic wave.
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Abstract
A device and method for differentiating an incident electromagnetic pulse. A conductive grating is provided with a sub-wavelength period, an area larger than the electromagnetic beam diameter, and a grating conductor thickness greater than the skin depth of the electromagnetic pulse. The grating conductors are oriented essentially parallel to the incident electromagnetic pulse to diffract the electromagnetic pulse. An aperture captures only the zero-order diffraction of the electromagnetic pulse, which is the first time-derivative of the incident electromagnetic pulse.
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Citations
12 Claims
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1. A time-domain differentiator comprising:
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a signal source providing a polarized input electromagnetic wave having a wavelength, a skin depth, a polarization vector, and a beam diameter;
a transmission grating having a grating face with an area greater than the beam diameter and disposed to receive the polarized input electromagnetic wave incident the grating face and diffract the polarized input electromagnetic wave, providing a zero-order diffraction, the grating face comprising parallel conductors having a period less than the wavelength and a thickness greater than the skin depth, the conductors being oriented essentially parallel to the polarization vector of the polarized input electromagnetic wave; and
an aperture sized and positioned to capture only the zero-order diffraction of the diffracted polarized input electromagnetic wave, the zero-order diffraction being an electromagnetic wave essentially equivalent to a time-domain derivative of the polarized input electromagnetic wave. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A method for performing a time-domain differentiation of an electromagnetic pulse, comprising:
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identifying an electromagnetic pulse to be differentiated, the pulse having a wavelength, a center frequency, a skin depth in a conductor, a polarization vector, and a beam diameter;
providing a transmission diffraction grating having an area greater that the beam diameter, the diffraction grating comprising spaced parallel conductive lines composed of the conductor, the conductive lines having;
a period less than the wavelength;
a thickness greater than the skin depth; and
a longitudinal length greater than the wavelength;
orienting the diffraction grating such that the electromagnetic pulse is incident to the diffraction grating and the polarization vector of the electromagnetic pulse is aligned with the conductive lines; and
capturing only the zero-order diffraction of the incident electromagnetic pulse. - View Dependent Claims (8, 9, 10, 11, 12)
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Specification