Relevant bibliographies by topics / High Frequency Applications

Academic literature on the topic 'High Frequency Applications'

Author: Grafiati
Published: 10 December 2022
Last updated: 29 January 2023

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Journal articles on the topic "High Frequency Applications"

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Sun, Haiyan, and Ling Sun. "An Improved Quad Flat Package for High Frequency SiP Applications." International Journal of Future Generation Communication and Networking 6, no. 6 (December 31, 2013): 37–46. http://dx.doi.org/10.14257/ijfgcn.2013.6.6.05.

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Headrick, J. M., and J. F. Thomason. "Applications of high-frequency radar." Radio Science 33, no. 4 (July 1998): 1045–54. http://dx.doi.org/10.1029/98rs01013.

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Sriram, S., A. Ward, J. Henning, and S. T. Allen. "SiC MESFETs for High-Frequency Applications." MRS Bulletin 30, no. 4 (April 2005): 308–11. http://dx.doi.org/10.1557/mrs2005.79.

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AbstractSignificant progress has been made in the development of SiC metal semiconductor field-effect transistors (MESFETs) and monolithic microwave integrated-circuit (MMIC) power amplifiers for high-frequency power applications. Three-inch-diameter high-purity semi-insulating 4H-SiC substrates have been used in this development, enabling high-volume fabrication with improved performance by minimizing surface- and substrate-related trapping issues previously observed in MESFETs. These devices exhibit excellent reliability characteristics, with mean time to failure in excess of 500 h at a junction temperature of 410°C. A sampling of these devices has also been running for over 5000 h in an rf high-temperature operating-life test, with negligible changes in performance. High-power SiC MMIC amplifiers have also been demonstrated with excellent yield and repeatability. These MMIC amplifiers show power performance characteristics not previously available with conventional GaAs technology. These developments have led to the commercial availability of SiC rf power MESFETs and to the release of a foundry process for MMIC fabrication.
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Perarasi, T., R. Gayathri, and P. Hamsagayathri. "Filter Design for High Frequency Applications." IOP Conference Series: Materials Science and Engineering 764 (March 7, 2020): 012045. http://dx.doi.org/10.1088/1757-899x/764/1/012045.

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Gardes, C., Y. Roelens, S. Bollaert, J. S. Galloo, X. Wallart, A. Curutchet, C. Gaquiere, et al. "Ballistic nanodevices for high frequency applications." International Journal of Nanotechnology 5, no. 6/7/8 (2008): 796. http://dx.doi.org/10.1504/ijnt.2008.018698.

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Xun Gong, W. J. Chappell, and L. P. B. Katehi. "Multifunctional substrates for high-frequency applications." IEEE Microwave and Wireless Components Letters 13, no. 10 (October 2003): 428–30. http://dx.doi.org/10.1109/lmwc.2003.818525.

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Sihlbom, R., M. Dernevik, Z. Lai, J. P. Starski, and J. Liu. "Conductive adhesives for high-frequency applications." IEEE Transactions on Components, Packaging, and Manufacturing Technology: Part A 21, no. 3 (1998): 469–77. http://dx.doi.org/10.1109/95.725211.

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Hamed, Ahmed, Mohamed Saeed, and Renato Negra. "Graphene-Based Frequency-Conversion Mixers for High-Frequency Applications." IEEE Transactions on Microwave Theory and Techniques 68, no. 6 (June 2020): 2090–96. http://dx.doi.org/10.1109/tmtt.2020.2978821.

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Klein, N. "High-frequency applications of high-temperature superconductor thin films." Reports on Progress in Physics 65, no. 10 (August 23, 2002): 1387–425. http://dx.doi.org/10.1088/0034-4885/65/10/201.

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Zampardi, P. J., K. Runge, R. L. Pierson, J. A. Higgins, R. Yu, B. T. McDermott, and N. Pan. "Heterostructure-based high-speed/high-frequency electronic circuit applications." Solid-State Electronics 43, no. 8 (August 1999): 1633–43. http://dx.doi.org/10.1016/s0038-1101(99)00113-6.

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Dissertations / Theses on the topic "High Frequency Applications"

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Davari, Pooya. "High frequency high power converters for industrial applications." Thesis, Queensland University of Technology, 2013. https://eprints.qut.edu.au/62896/1/Pooya_Davari_Thesis.pdf.

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The main contribution of this project was to investigate power electronics technology in designing and developing high frequency high power converters for industrial applications. Therefore, the research was conducted at two levels; first at system level which mainly encapsulated the circuit topology and control scheme and second at application level which involves with real-world applications. Pursuing these objectives, varied topologies have been developed and proposed within this research. The main aim was to resolving solid-state switches limited power rating and operating speed while increasing the system flexibility considering the application characteristics. The developed new power converter configurations were applied to pulsed power and high power ultrasound applications for experimental validation.
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Lee, Joshua Khai Ho. "High performance transconductance amplifiers for high frequency RF applications." Thesis, Oxford Brookes University, 2003. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.432702.

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bi, xiaofei. "Compressed Sampling for High Frequency Receivers Applications." Thesis, Högskolan i Gävle, Avdelningen för elektronik, matematik och naturvetenskap, 2011. http://urn.kb.se/resolve?urn=urn:nbn:se:hig:diva-10877.

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In digital signal processing field, for recovering the signal without distortion, Shannon sampling theory must be fulfilled in the traditional signal sampling. However, in some practical applications, it is becoming an obstacle because of the dramatic increase of the costs due to increased volume of the storage and transmission as a function of frequency for sampling. Therefore, how to reduce the number of the sampling in analog to digital conversion (ADC) for wideband and how to compress the large data effectively has been becoming major subject for study. Recently, a novel technique, so-called “compressed sampling”, abbreviated as CS, has been proposed to solve the problem. This method will capture and represent compressible signals at a sampling rate significantly lower than the Nyquist rate.   This paper not only surveys the theory of compressed sampling, but also simulates the CS with the software Matlab. The error between the recovered signal and original signal for simulation is around -200dB. The attempts were made to apply CS. The error between the recovered signal and original one for experiment is around -40 dB which means the CS is realized in a certain extent. Furthermore, some related applications and the suggestions of the further work are discussed.
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Despotopoulos, Solon. "SiGe HFETs for analogue high frequency applications." Thesis, Imperial College London, 2003. http://hdl.handle.net/10044/1/8727.

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Köroğlu, Mustafa Hadi. "High frequency integrated filters for wireless applications." Diss., Georgia Institute of Technology, 2002. http://hdl.handle.net/1853/14458.

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Massicotte, Mathieu. "Graphene electronics for high frequency, scalable applications." Thesis, McGill University, 2012. http://digitool.Library.McGill.CA:80/R/?func=dbin-jump-full&object_id=110547.

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The advent of large-scale graphene grown by chemical vapor deposition (CVD) offers a viable route towards high-frequency (HF) graphene-based analogue electronics. A significant challenge, however, is to synthesize and fabricate HF graphene-based devices with high carrier mobility. Here, we report our efforts to understand and control the CVD growth mechanism of graphene on copper, to characterize the synthesized film, and to fabricate graphene transistors and HF devices. In parallel, we describe the synthesis of large pristine dendritic graphene flakes that we name graphlocons. The electronic transport properties and magnetoresistance were assessed from 300 K to 100 mK and mobility up to 460 cm^2/Vs was obtained with a residual charge carrier density of 1.6x10^12 cm^-2. HF scattering parameters were measured from 0.04 to 20 GHz but they showed no dependence on temperature and magnetic field. This work provides a starting point for improving the structural and electronic properties of CVD graphene, and for exploring new phenomena in the GHz frequency range.
L'avènement du graphène produit à grande-échelle par dépôt chimique en phase vapeur (CVD) ouvre une voie vers l'électronique haute-fréquence (HF) à base de graphène. Synthétiser du graphène possédant une grande mobilité des porteurs de charge et l'incorporer à des dispositifs HF constitue cependant un important défi. Nous présentons ici le fruit de nos efforts pour comprendre et contrôler le mécanisme de croissance CVD du graphène sur le cuivre, caractériser les films ainsi produits, et fabriquer des transistors et dispositifs HF à base de graphène. Parallèlement, nous décrivons la synthèse de grands flocons dendritiques de graphène que nous appelons graphlocons. Les propriété électroniques et la magnetorésistance de ces échantillons ont été mesurées de 300 K à 100 mK et la mobilité la plus élevée obtenue est de 460 cm^2/Vs avec une densité de porteurs de charge résiduels de 1.6x10^12 cm^-2 . Les paramètres S de haute fréquence ont été mesurés de 0.04 à 20 GHz mais aucune dépendance en température ou champ magnétique n'a été observée. Ce travail fourni un point de départ pour améliorer les propriétés structurales et électroniques du graphène produit par CVD, et pour explorer de nouveaux phénomènes dans le domaine des GHz. .
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McCarthy, Jane. "Composite magnetostrictive materials for high frequency applications." Thesis, University of Brighton, 1999. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.365089.

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Zhang, Xiaokai. "Novel magnetic composites for high frequency applications /." Access to citation, abstract and download form provided by ProQuest Information and Learning Company; downloadable PDF file, 190 p, 2009. http://proquest.umi.com/pqdweb?did=1654494811&sid=2&Fmt=2&clientId=8331&RQT=309&VName=PQD.

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Lin, Fang. "High-Q high-frequency CMOS bandpass filters for wireless applications." Diss., Georgia Institute of Technology, 2003. http://hdl.handle.net/1853/14869.

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Escalante, Soberanis Mauricio Alberto. "High frequency data analysis for wind energy applications." Thesis, University of British Columbia, 2015. http://hdl.handle.net/2429/54821.

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High frequency data (HFD) of three site studies in different geographic locations were analyzed to reproduce the power spectrum illustrated by Van der Hoven in 1957. His work represents the basis of wind energy standards such as averaging and variability in the frequency domain. The results presented in this thesis unveil discrepancies with Van der Hoven’s approach. A major eddy-energy peak is illustrated at a period of 2 days and a smaller eddy-energy peak contribution at frequencies higher than the region known as the spectrum gap. The variance in the microscale region was calculated by integrating the Power Spectral Density (PSD) over the corresponding range of frequencies. The economic value of this energy variance based on the turbulence kinetic energy of the wind data set is calculated. It is also concluded that, given the results of the study, HFD analysis in the frequency domain uncovers eddy-energy peaks that determine energy fluctuations in the short and long terms. An algorithm was developed to detect delay times in the turbulence kinetic energy (TKE) and the energy dissipation rate ε on a continuous basis (thereby identifying the highest cross-correlation coefficients between them). The Kolmogorov turbulence order is applied to calculate the energy dissipation rate ε through the identification of the inertial subrange. The time scale in the variations of both parameters was successfully calculated and it is close to the time the air takes to circulate between the surface and the top of the atmosphere’s mixed layer. High correlation coefficients are found in the three site studies from 4am to 8am, and from 8pm to 12pm. The cross-correlation function also determines delay time scales in the range of 10-20 minutes and approximately 2 hours. The energy dissipation rate can be calculated to characterize wind variability in a particular site that might affect the performance of a wind turbine. With these results, more information is generated that can be used in the wind turbine’s control system routines to improve its response under wind turbulence variations.
Applied Science, Faculty of
Mechanical Engineering, Department of
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Books on the topic "High Frequency Applications"

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Khamas, Salam. High frequency applications of superconductors. Birmingham: University of Birmingham, 1988.

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Reisch, M. High-frequency bipolar transistors: Physics, modeling, applications. Berlin: Springer, 2003.

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Skutt, Glenn. Modeling multiwinding transformers for high-frequency applications. Durham, N.C: Duke University, 1988.

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Reisch, M. High-Frequency Bipolar Transistors: Physics, Modeling, Applications. Berlin, Heidelberg: Springer Berlin Heidelberg, 2003.

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High-frequency bipolar transistors: Physics, modelling, applications. Berlin: Springer, 2003.

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Stoner, Richard John. High frequency underwater communication for shallow channel applications. Birmingham: University of Birmingham, 1996.

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High-frequency electromagnetic techniques: Recent advances and applications. New York: Wiley, 1995.

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1956-, Volakis John Leonidas, ed. Computational methods for high frequency electromagnetic interference: Theories and applications. Saabrücken: VDM Verlag Dr. Müller, 2009.

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Farmer, Jeffery T. Thermal-distortion analysis of an antenna strongback for geostationary high-frequency microwave applications. Hampton, Va: Langley Research Center, 1990.

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International Conference on Microwave and High-Frequency Heating (8th 2001 Bayreuth, Germany). Advances in microwave and radio frequency processing: Report from the 8th International Conference on Microwave and High-Frequency Heating held in Bayreuth, Germany, September 3-7, 2001. Berlin: Springer, 2006.

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Book chapters on the topic "High Frequency Applications"

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Reisch, Michael. "Applications." In High-Frequency Bipolar Transistors, 551–74. Berlin, Heidelberg: Springer Berlin Heidelberg, 2003. http://dx.doi.org/10.1007/978-3-642-55900-6_8.

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Boustedt, K. "Interconnections for High-Frequency Applications." In Area Array Interconnection Handbook, 1031–48. Boston, MA: Springer US, 2001. http://dx.doi.org/10.1007/978-1-4615-1389-6_26.

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Chou, Hsi-Tseng, and Teh-Hong Lee. "Asymptotic High Frequency Methods." In Novel Technologies for Microwave and Millimeter — Wave Applications, 425–60. Boston, MA: Springer US, 2004. http://dx.doi.org/10.1007/978-1-4757-4156-8_20.

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Condori Quispe, Hugo O., Berardi Sensale-Rodriguez, and Patrick Fay. "Plasma-Wave Propagation in GaN and Its Applications." In High-Frequency GaN Electronic Devices, 159–79. Cham: Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-20208-8_6.

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Baek, Seung-Hwa, Hyun-Min Kim, and Hee-Je Kim. "Corrosion Protection Using High-Voltage and High-Frequency System." In Intelligent Robotics and Applications, 8–17. Berlin, Heidelberg: Springer Berlin Heidelberg, 2013. http://dx.doi.org/10.1007/978-3-642-40852-6_2.

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Srivastava, C. M. "High Frequency Applications of High-T c Superconductors." In Microwave Materials, 240–57. Berlin, Heidelberg: Springer Berlin Heidelberg, 1994. http://dx.doi.org/10.1007/978-3-662-08740-4_9.

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Yip, Peter C. L. "The Spectrum Analyser and its Applications." In High-Frequency Circuit Design and Measurements, 162–84. Dordrecht: Springer Netherlands, 1990. http://dx.doi.org/10.1007/978-94-011-6950-9_9.

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Degiannakis, Stavros, and Christos Floros. "Realized Volatility Forecasting: Applications." In Modelling and Forecasting High Frequency Financial Data, 161–216. London: Palgrave Macmillan UK, 2015. http://dx.doi.org/10.1057/9781137396495_5.

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Earle, Keith A., and Alex I. Smirnov. "High Field ESR: Applications to Protein Structure and Dynamics." In Very High Frequency (VHF) ESR/EPR, 95–143. Boston, MA: Springer US, 2004. http://dx.doi.org/10.1007/978-1-4757-4379-1_4.

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Shung, K. Kirk, Jonathan M. Cannata, and Qifa Zhou. "High-Frequency Ultrasonic Transducers and Arrays." In Piezoelectric and Acoustic Materials for Transducer Applications, 431–51. Boston, MA: Springer US, 2008. http://dx.doi.org/10.1007/978-0-387-76540-2_21.

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Conference papers on the topic "High Frequency Applications"

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Cox, Henry. "Navy Applications of High-Frequency Acoustics." In HIGH FREQUENCY OCEAN ACOUSTICS: High Frequency Ocean Acoustics Conference. AIP, 2004. http://dx.doi.org/10.1063/1.1843039.

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Song, Heechun. "Time Reversal Ocean Acoustic Experiments At 3.5 kHz: Applications To Active Sonar And Undersea Communications." In HIGH FREQUENCY OCEAN ACOUSTICS: High Frequency Ocean Acoustics Conference. AIP, 2004. http://dx.doi.org/10.1063/1.1843048.

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Ozawa, Akira, Zhao Zhigang, Makoto Kuwata-Gonokami, and Yohei Kobayashi. "VUV Frequency Comb Generation and its Applications." In High Intensity Lasers and High Field Phenomena. Washington, D.C.: OSA, 2014. http://dx.doi.org/10.1364/hilas.2014.htu3c.1.

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Courjon, Emilie, Bruno Francois, Gilles Martin, William Daniau, Thomas Baron, Marc Loschonsky, Jean-Michel Friedt, Brahim Belgacem, Leonard Reindl, and Sylvain Ballandras. "High overtone bulk acoustic resonators for high temperature sensing applications." In 2013 Joint European Frequency and Time Forum & International Frequency Control Symposium (EFTF/IFC). IEEE, 2013. http://dx.doi.org/10.1109/eftf-ifc.2013.6702287.

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Reddy, M. Brahmananda, S. Swarna, Priskala, M. Chandrashekar, C. Vinod, P. M. Dhruva, and D. K. Singh. "High frequency OCXO for Space applications." In 2012 IEEE International Frequency Control Symposium (FCS). IEEE, 2012. http://dx.doi.org/10.1109/fcs.2012.6243649.

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Chiao, Jung-Chih. "MEMS for high-frequency applications." In SPIE's 8th Annual International Symposium on Smart Structures and Materials, edited by Vijay K. Varadan. SPIE, 2001. http://dx.doi.org/10.1117/12.436599.

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Ye, Jun, Long-Sheng Ma, and John L. Hall. "Cavity-enhanced frequency modulation spectroscopy: advancing optical detection sensitivity and laser frequency stabilization." In Optoelectronics and High-Power Lasers & Applications, edited by Bryan L. Fearey. SPIE, 1998. http://dx.doi.org/10.1117/12.308366.

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Musha, Mitsuru, Takeshi Kanaya, and Ken-ichi Ueda. "Frequency-stabilized injection-locked laser." In Advanced High-Power Lasers and Applications, edited by Marek Osinski, Howard T. Powell, and Koichi Toyoda. SPIE, 2000. http://dx.doi.org/10.1117/12.380909.

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Park, Jae Y., and Mark G. Allen. "Micromachined high Q inductors for high-frequency applications." In Micromachining and Microfabrication, edited by Patrick J. French and Kevin H. Chau. SPIE, 1998. http://dx.doi.org/10.1117/12.323890.

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Belfi, Jacopo, Nicolo Beverini, Bachir Bouhadef, Giorgio Carelli, Davide Cuccato, Angela Di Virgilio, Andrea Licciardi, et al. "Laser gyroscopes for very high sensitive applications." In 2012 European Frequency and Time Forum (EFTF). IEEE, 2012. http://dx.doi.org/10.1109/eftf.2012.6502422.

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Reports on the topic "High Frequency Applications"

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Armendariz, M. G., G. R. Hadley, and M. E. Warren. Advanced packaging technology for high frequency photonic applications. Office of Scientific and Technical Information (OSTI), March 1996. http://dx.doi.org/10.2172/211590.

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Archambeau, C. Applications of discrimination methods to high frequency seismic data. Office of Scientific and Technical Information (OSTI), May 1989. http://dx.doi.org/10.2172/7245131.

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Schmitt, R. L., R. J. Williams, and J. D. Matthews. High-frequency scannerless imaging laser radar for industrial inspection and measurement applications. Office of Scientific and Technical Information (OSTI), November 1996. http://dx.doi.org/10.2172/419074.

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Givot, Brad, Justin Johnson, Sung Kim, Luke E. Schallinger, and James Baker-Jarvis. Characterization of tissue-equivalent materials for high-frequency applications (200 MHz to 20 GHz). Gaithersburg, MD: National Bureau of Standards, 2010. http://dx.doi.org/10.6028/nist.tn.1554.

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Lyo, Sungkwun Kenneth, Wei Pan, John Louis Reno, Joel Robert Wendt, and Daniel Lee Barton. LDRD final report on Bloch Oscillations in two-dimensional nanostructure arrays for high frequency applications. Office of Scientific and Technical Information (OSTI), September 2008. http://dx.doi.org/10.2172/948689.

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Bishop, Nicholas A., Mohammod Ali, Jason Miller, David L. Zeppettella, William Baron, and James Tuss. A Broadband High-Gain Bi-Layer Log-Periodic Dipole Array (LPDA) for Ultra High Frequency (UHF) Conformal Load Bearing Antenna Structures (CLAS) Applications. Fort Belvoir, VA: Defense Technical Information Center, August 2014. http://dx.doi.org/10.21236/ada609576.

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Соловйов, Володимир Миколайович, V. Saptsin, and D. Chabanenko. Markov chains applications to the financial-economic time series predictions. Transport and Telecommunication Institute, 2011. http://dx.doi.org/10.31812/0564/1189.

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In this research the technology of complex Markov chains is applied to predict financial time series. The main distinction of complex or high-order Markov Chains and simple first-order ones is the existing of after-effect or memory. The technology proposes prediction with the hierarchy of time discretization intervals and splicing procedure for the prediction results at the different frequency levels to the single prediction output time series. The hierarchy of time discretizations gives a possibility to use fractal properties of the given time series to make prediction on the different frequencies of the series. The prediction results for world’s stock market indices are presented.
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Antonsen, T. M. Jr, W. W. Destler, V. Granatstein, and B. Levush. Microwave generation for magnetic fusion energy applications. Task A, Free electron lasers with small period wigglers; Task B, Theory and modeling of high frequency, high power gyrotron operation: Progress report, May 1, 1993--May 1, 1994. Office of Scientific and Technical Information (OSTI), May 1994. http://dx.doi.org/10.2172/10151962.

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van der Heijden, Joost. Optimizing electron temperature in quantum dot devices. QDevil ApS, March 2021. http://dx.doi.org/10.53109/ypdh3824.

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The performance and accuracy of quantum electronics is substantially degraded when the temperature of the electrons in the devices is too high. The electron temperature can be reduced with appropriate thermal anchoring and by filtering both the low frequency and radio frequency noise. Ultimately, for high performance filters the electron temperature can approach the phonon temperature (as measured by resistive thermometers) in a dilution refrigerator. In this application note, the method for measuring the electron temperature in a typical quantum electronics device using Coulomb blockade thermometry is described. This technique is applied to find the readily achievable electron temperature in the device when using the QFilter provided by QDevil. With our thermometry measurements, using a single GaAs/AlGaAs quantum dot in an optimized experimental setup, we determined an electron temperature of 28 ± 2 milli-Kelvin for a dilution refrigerator base temperature of 18 milli-Kelvin.
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Hajdini, Ina, Edward S. Knotek, John Leer, Mathieu O. Pedemonte, Robert W. Rich, and Raphael S. Schoenle. Indirect Consumer Inflation Expectations: Theory and Evidence. Federal Reserve Bank of Cleveland, November 2022. http://dx.doi.org/10.26509/frbc-wp-202235.

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Based on indirect utility theory, we introduce a novel methodology of measuring inflation expectations indirectly. This methodology starts at the individual level, asking consumers about the change in income required to buy the same amounts of goods and services one year ahead. Analytically, our methodology possesses smaller ex-post aggregate inflation forecast errors relative to forecasts based on conventional survey questions. We ask this question in a large-scale, high-frequency survey of consumers in the US and 14 countries, and we show that indirect consumer inflation expectations perform well along several empirical dimensions. Exploiting the geographically detailed, high-frequency variation in the data, we then show that individual experiences matter for inflation expectations, in a nuanced way. For example, age and gender have different effects internationally, while individual inflation and local experiences are generally highly relevant. In an application to gasoline price changes, we identify large effects of experienced gasoline price changes on inflation expectations, characterized by both overreaction and persistence.
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