Jet calendar applcatio4/29/2023 ![]() Start times and television broadcast schedules will be released shortly. The Jets play two straight games versus an opponent only once, a home-and-home set against their 2021 Stanley Cup Playoff First Round opponent, the Edmonton Oilers, Nov. Tuesday is the busiest day for the Jets with the team playing 17 times, including four straight Tuesdays in March. Winnipeg plays 11 back-to-backs this season: nine feature a pair of road games and two are consecutive games at Canada Life Centre. January and March are the busiest months, with the Jets playing 15 games in each. The Jets also host and visit all 16 teams in the Eastern Conference once throughout the 2021-22 season. Winnipeg plays the remainder of the Western Conference from the Pacific Division 24 times with 12 of their first 17 games coming against opponents from this division. The Jets return to the Central Division this season for 26 games, the Central now numbers eight teams with the addition of the Arizona Coyotes. 1) and Calgary Flames (season finale on Apr. The Edmonton Oilers make two separate trips to Winnipeg on Nov. That stretch also features the Jets' longest stretch of road games as they will play five straight contests away from Manitoba.Īfter playing all 56 regular season and eight playoff games against the other six Canadian teams as part of the Scotia North Division last season, the 2021-22 Jets face Canadian teams only 15 times - seven games at Canada Life Centre and eight times on the road. Winnipeg will not play a home game from Jan. You may also call (972) 883-5331 for assistance or send an email to All requests should be received no later than 10 business days prior to the event.The longest homestand of the season spans seven games from Nov. Persons with disabilities may submit a request for accommodations to participate in this event at UT Dallas' ADA website. Duncan is a registered professional engineer in the state of Texas and a Fellow of the Optical Society of America. from Portland State University and his MBA from SMU. Duncan received his BSEE and MSEE from Brown University, his Ph.D. He teaches graduate and undergraduate courses in Electromagnetics, Microwave Engineering, Optics, Probability and Statistics, Signals and Systems, Communication Systems and Electronics. He is a co-Founder of MRRA, a company dedicated to improving medical imaging through supporting instrumentation. He has worked at Schafer Associates, Texas Instruments and at JDS Uniphase, and helped start Celion Networks, a telecommunications system start-up backed by Sequoia. ![]() Duncan served as Program Head of Telecommunications Engineering, and as Associate Dean for Interdisciplinary Programs he started three new departments (Materials Science and Engineering, Bioengineering, Systems Engineering and Management) and six new degree programs. An early hire in the then nascent Erik Jonsson School of Engineering and Computer Science he contributed to the definition and growth of a top engineering school. Prior to joining SMU, Duncan spent 26 years at The University of Texas at Dallas. He pioneered the manufacture of micro-optics using ink jet techniques, and invented a novel 3-dimensional volumetric display which has found application in aerospace. His work in photonic filters is used widely by practicing optical component and system engineers in industry. ![]() Specific research projects have included micro-optics, ultrafast lasers, photonic integrated filters, nonlinear optics, semiconductor lasers, RF and optical communications, and advanced displays. Duncan has written more than 100 technical papers or patents in the general area of photonic systems and components. The researchers have also demonstrated a vortex dielectric waveguide for spatial mode multiplexing.ĭuncan MacFarlane holds the Lyle Chair in Engineering Entrepreneurship at Southern Methodist University. Square cross sections support robust polarization multiplexing. ![]() Holey cladding and holey core designs are developed to support low loss data transport. The Photonic Devices and Systems Laboratory has been supporting a planned demonstrator for a near-THz chip-to-chip data link through the design, fabrication and testing of novel dielectric waveguides. Successful application of THz waves requires a suitable ecosystem of components, including sources and detectors, lenses, waveguides and filters. Campbell Road, Richardson, Texas 75080-3021 Duncan MacFarlane (SMU)Įngineering and Computer Science South (ECSS), ECSS 3.503 800 W. Dielectric Waveguides for THz Application by Dr.
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