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For more than 70 years, Lotus has been at the forefront of innovation in the car industry offering the best sports car customer experience in the world. It also has a fast-developing specialist automotive engineering consultancy, which fully exploits its growing reputation and flair for product innovation and technical excellence.

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Wireless networks are becoming universal day by day which gives freedom of movement and flexibility in wireless communication. This technology is developing and it has many possibilities in future. Different wireless applications or facilities are available in different frequencies. So, an antenna with multiple frequency bands, which is essential part of this system, has greater acceptance in. Lotus Engineering delivers projects ranging from a few thousand-pound technical consultancy reports to multi-million-pound full vehicle programmes. The commercial team will work with customers to define their requirements, negotiate price, terms and build key business relationships.

Our new Lotus Advanced Technology Centre allows us to further strengthen our unique capabilities by attracting and retaining the highest calibre employees from the Midlands area to enable us to continue to build our automotive capabilities.

With close links to our Headquarters in Hethel, this gives us an additional delivery capability for our sports car programmes and a more central engineering offering close to our key engineering customers.

Located on the University of Warwick’s Wellesbourne Campus, the new facility is established in partnership with WMG at the University of Warwick.
The substantial facility consists of offices, workshops and laboratory space with ample space for expansion.

Business Operations

The Lotus Advanced Technology Centre is a key facility for our Lotus Engineering consultancy division allowing us to offer engineering office and workshop based services located close to our key clients in the Midlands area.
These engineering activities will continue to be supplemented and supported by our extensive capabilities and facilities at our Hethel headquarters.

We will also resource our advanced propulsion and electrification programmes from the Lotus Advanced Technology Centre, with engineering design and workshop development activities to support our growing portfolio of exciting technology projects.

Location

Around 6 miles south of Warwick and only 17 miles from Coventry, Wellesbourne campus is situated close to the historic towns of Royal Leamington Spa and Shakespeare birthplace of Stratford-upon-Avon.

Our new Lotus Advanced Technology Centre allows us to further strengthen our unique capabilities by attracting and retaining the highest calibre employees from the Midlands area to enable us to continue to build our automotive capabilities.

With close links to our Headquarters in Hethel, this gives us an additional delivery capability for our sports car programmes and a more central engineering offering close to our key engineering customers.

This is a big step forward for Lotus and our engineering consultancy. The new space, facilities and job opportunities at Wellesbourne will be in great demand as we rapidly build our portfolio of external projects. The all-electric Evija hypercar is the first new Lotus Cars product for us to deliver, with significant focus on this at Wellesbourne as we complete the project and continue to advance its technologies for our future programmes.

Wellesbourne offers an excellent facility, with plenty of expansion potential, and will be the perfect home for our new Advanced Technology Centre. Our engineering and R&D strategy around advanced propulsion systems is lock-in-step with the Government’s vision and broader global ambitions for a low-carbon automotive future. We look forward to working in collaboration with Government and with our new campus neighbours on this future. Having research partners at the University and WMG will bring significant benefits, as will the Midlands location, which is both very accessible and home to a rich pool of automotive talent.

The West Midlands has long been the beating heart of the UK’s automotive and engineering industries, and this announcement is further evidence that this proud history will continue. Lotus’ new Advanced Technology Centre will secure over 100 highly-skilled jobs in Warwickshire, support a strong economic recovery across the region and drive forward the low carbon, electric technologies of the future.

Futher information

Abstract:

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We describe the operation of a simple near-field interference microwave microscope. The microscope contains two identical probes which are connected to the ends of segments of the coaxial transmission line. The probes are constructed from an open-ended conical coaxial line and are excited by applied microwave voltage in the frequency range of 0.6 – 7.0 GHz. The computer simulation of the field distribution near the aperture of a separate probe was performed. The test objects are placed in the gap between the probes apertures. The main attention was concentrated on motor fuels to detect other impurities. In particular, diesel fuel was studied with impurities in the form of kerosene and synthetic motor oil in different proportions. It is shown that the microscope can reliably detect these impurities even if their content is relatively small. It was also demonstrated that the microscope can be used for determination of the alcohol quality and spirit-based solutions.

Prof. Andrey Radionov, G.G. Mikhailov and D.A. Vinnik

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[1] K.P. Gaikovich, P.K. Gaikovich, Inverse problem of near-field scattering in multilayer media, Inverse Problems. 12 (2010) 125013-125020.

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DOI: 10.1088/0266-5611/26/12/125013

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[2] K.P. Gaikovich, E.S. Maksimovich, About the near-field microwave diagnostics of inhomogeneities in strongly absorbing media, Journal of Radioelectronics. 1 (2015). URL: http: /jre. cplire. ru/jre/jan15/index. html.

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[3] K.P. Gaikovich, E.S. Maksimovich, V.A. Badeev, Microwave subsurface holography solid dielectric objects, Journal of Radioelectronics. 6 (2012). URL: http: /jre. cplire. ru/jre/jun12/index. html.

[4] V.P. Belichenko, A.S. Zapasnoy, P.V. Shestakov, Control of the Magnitude and Spatial Distribution of Interference Energy Flows in Near Fields of Systems of Identical Radiators, Optics and Spectroscopy. 4 (2015) 605-608.

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DOI: 10.1134/s0030400x15040037

[5] S.V. Kalinin, A. Gruverman, Scanning Probe Microscopy: Electrical and Electromechanical Phenomena at the Nanoscale, Vol. 1, Springer, New York, (2007).

[6] A.N. Reznik, N.V. Yurasova, Detection of contrast objects inside biological media by near-field microwave diagnostics, Technical physics. 1 (2006) 90-104.

DOI: 10.1134/s1063784206010142