3 edition of 2-D true time delay generation using fiber chirp gratings and acousto-optic beam deflectors found in the catalog.
2-D true time delay generation using fiber chirp gratings and acousto-optic beam deflectors
by U.S. Dept. of Commerce, Technology Administration, National Institute of Standards and Technology in Gaithersburg, MD
Written in English
|Other titles||2 D true time delay generation using fiber chirp gratings and acousto-optic beam deflectors.|
|Statement||Eung Gi Paek, Joon Y. Choe, Tae K. Oh.|
|Series||NISTIR -- 6038.|
|Contributions||Choe, Joon Y., Oh, Tae K., National Institute of Standards and Technology (U.S.)|
|The Physical Object|
|Number of Pages||10|
Abstract: A fiber-optic anemometer based on fiber Bragg gratings (FBGs) is presented. A short section of cobalt-doped fiber was utilized to make a fiber-based “hot wire” for wind speed measurement. Fiber Bragg gratings (FBGs) were fabricated in the cobalt-doped fiber using nm laser pulses to serve as localized temperature sensors. —More information on 2-D true time delay generation using fiber chirp gratings and acousto-optic beam deflectors (SuDoc C ) Raj Mittra, " MMIC devices for active phased array antennas semiannual report, 21 December to 20 June (SuDoc NAS ) ".
A chirped fiber grating (CFG) written by the moving fiber/phase mask scanning beam technique with a uniform mask is used to demonstrate the dispersion compensation in the externally modulated microwave/millimeter-wave over fiber system. It is found that the use of the CFG is an efficient way to compensate for the severe RF power degradation Cited by: 2. fiber optic sensors plastic optic fibers 1 through-beam sensors fiber optic through-beam and dif. reflection sensors diffuse reflection sensors accessories ipf electronic gmbh Kalver Straße 25 – 27 Lüdenscheid – Germany Subject to alteration! Version: July Tel +49 Fax +49
sensor using dual fiber Bragg gratings (FBGs). The intention was to use one FBG as a reference and let the other FBG function as the sensor. The study shows that it is possible to characterize the temperature sensitivity of each FBG and use the reference to sweep over the applicable spectrum to find the Bragg-wavelength of the sensor. Continuously-tunable microwave photonic true-time-delay based on a fiber-coupled beam deflector and diffraction grating. Schermer RT(1), Bucholtz F, Villarruel CA. Author information: (1)Optical Sciences Division, U.S. Naval Research Laboratory, Overlook Avenue, SW, Washington, DC, USA. [email protected] by:
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Get this from a library. 2-D true time delay generation using fiber chirp gratings and acousto-optic beam deflectors. [Eung Gi Paek; Joon Y Choe; Tae K Oh; National Institute of Standards and Technology (U.S.)].
Abstract: In this paper, a new five-element true-time-delay system is presented. To achieve the time delays needed for beamforming, a single chirped fiber grating delay line is used. The chirped fiber grating reflects different optical wavelengths driven into it at different times.
These time differences constitute the necessary. A compact high frequency true time delay (TTD) beamformer using bidirectional reflectance of the fiber gratings (FGs) is proposed.
The FGs can be a set of fiber Bragg gratings (FBGs) or chirped fiber gratings (CFGs). The number and the length of the time delay lines are greatly reduced compared to the previous by: Therefore, the TLCFG delay line is a true-time-delay beamformer and is suit- able for wideband applications.
For our system, the time delay difference is determined by the chirp rate of the chirped grating and the wavelength spacing of the optical carriers. We have demonstrated a continuous phased-array antenna beam former based on a variable photonics true-timedelay unit consisting of four chirped gratings.
The system is suitable for the phased-array antenna beam forming at frequencies up to 20 by: 7. The time delay requirements for a 4×4 subarray of a PAA with. ±45◦ steering angle across X, Ku, and K frequency bands. and a is the core radius, n1 and n2 are the refractive indices of the core and cladding, respectively, and is the free space propagating wavelength.
Optical true-time-delay (TTD) technique is an emerging technology that is capable of providing these features along with the ability to provide frequency independent beam steering.
This type of fiber true time delay module can be implemented into an optically fed phased array antenna system similar to that described by Shi et al. To the authors’ knowledge, this work is the first time that a thermally tuned bare optical fiber is demonstrated to generate time delay values for a phased array by: 5.
We presented a method to actualize the optical vortex generation with wavelength tunability via an acoustically-induced fiber grating (AIFG) driven by a radio frequency source. The circular polarization fundamental mode could be converted to the first-order optical vortex through the AIFG, and its topological charges were verified by the spiral pattern of coaxial interference between the first Cited by: 2) of the optical material, electrode geometric factors (L/H) and inversely proportional to the square of the wavelength.
ACOUSTO OPTIC MATERIAL SELECTION A variety of acousto-optical materials are used for Acousto Optic Modulators depending on the laser parameters such as wavelength, polarization, and power Size: KB. A new 2-D true time delay (TTD) generation system architecture for phased array antennas is described.
The method uses fiber chirp gratings and acousto-optic beam deflectors. By combining free-space optics and guided optics, the device complexity in conventional Cited by: 1. Xinyong DONG: Intensity-Modulated Optical Fiber Sensors Based on Chirped-Fiber Bragg Gratings measured), etc, but excluding transmission loss of the grating.
ρ(λ) and R(λ) are the power spectral density of the broadband light source and the reflectivity of. A new 2-D true time delay (TTD) generation system architecture for phased array antennas is described.
The method uses fiber chirp gratings and acousto-optic beam deflectors. By combining. Vol NISTIR 2-D true time delay generation using fiber Chirp gratings and acousto-optic beam deflectors by Paek, Eung Gi; Choe, Joon Y.; Oh, Tae K.
Subwavelength grating enabled on-chip ultra-compact optical true time delay line Junjia Wang1, Reza Ashrafi1, Rhys Adams2, Ivan Glesk3, Ivana Gasulla4, José Capmany4 & Lawrence R. Chen1 An optical true time delay line (OTTDL) is a basic photonic building block that enables many microwave photonic and optical processing operations.
Tunable nanophotonic delay lines using linearly chirped contradirectional couplers with uniform Bragg gratings Wei Shi,1,2,* Venkat Veerasubramanian,1 David Patel,1 and David V.
Plant1 1Department of Electrical and Computer Engineering, McGill University, Montreal, Quebec, Canada 2Currently with the Department of Electrical and Computer Engineering, Université Laval, Québec City, Quebec, Canada.
An all-fiber acousto-optic modulator (AOM), which features a compact structure and a low-driving voltage, is experimentally demonstrated for the active mode-locking of a fiber laser.
The proposed AOM is based on the short length of the cladding-etched fiber, the ends of which are fixed on a slide by: 6. At the time, it was recognized that gratings in optical waveguides would have many potential applications in the fabrication of devices for use in ﬁber optic communications.
In fact, it was shown that “Hill gratings” could be used as a feedback mirror for a laser and as a. A new 2-D true time delay (TTD) generation system architecture for phased array antennas is described.
The method uses fiber chirp gratings and acousto-optic beam deflectors. By combining free-space optics and guided optics, the device complexity in conventional TTD systems has been significantly reduced. of a coiled optical fiber introduces thermal effects, polarization coherence loss, as well as dynamic bi-refringence effects.
In this Letter we present an all-fiber variable optical delay line based on a matched pair of linearly chirped fiber Bragg gratings (FBGs).5 The pair is arranged so as to compensate for each other’s chromatic disper-sion. An acousto optic deflector is a device that will scan an optical beam over a range of angles or accurately control the output angle of the beam.
By altering the RF drive frequency to the deflector, the deflection angle, i.e. the angle through which the diffracted beam is deviated, can be varied.True time delay generation utilizing broadband light source with fiber chirp grating array and acousto-optic beam steering and 2-D architectures WOA2 (en) Hrl Laboratories, Llc: Method and apparatus for electro-optic delay generation Cited by: Using this method to stabilize a mode-locked Er-fibre laser enables the all-fibre photonic generation of optical pulse trains with sub-femtosecond absolute timing jitter over a s time scale Cited by: