@misc{10481/62018, year = {2019}, month = {3}, url = {http://hdl.handle.net/10481/62018}, abstract = {Here we propose the use of twist and glide symmetries to increase the equivalent refractive index in a helical guiding structure. Twist- and glide-symmetrical distributions are created with corrugations placed at both sides of a helical strip. Combined twist-and glide-symmetrical helical unit cells are studied in terms of their constituent parameters. The increase of the propagation constant is mainly controlled by the length of the corrugations. In our proposed helix antenna, twist and glide symmetry cells are used to reduce significantly the operational frequency compared with conventional helix antenna. Equivalently, for a given frequency of operation, the dimensions of helix are reduced with the use of higher symmetries. The theoretical results obtained for our proposed helical structure based on higher symmetries show a reduction of 42.2% in the antenna size maintaining a similar antenna performance when compared to conventional helix antennas.}, organization = {This research was funded by the Spanish Ministerio de Ciencia, Innovación y Universidades with European Union FEDER funds, grant number TIN2016-75097-P, and by Universidad de Granada, under the project PPJI2017.15. Also, this work has been partially supported by the Universidad de Granada through the grant program “Becas de iniciación a la investigación” from Plan Propio de Investigación.}, publisher = {MDPI}, keywords = {Higher symmetries}, keywords = {Periodic structures}, keywords = {Glide symmetry}, keywords = {Twist symmetry}, keywords = {Dispersion diagram}, keywords = {Microwave printed circuits}, keywords = {Helix antennas}, title = {Twist and Glide Symmetries for Helix Antenna Design and Miniaturization}, doi = {10.3390/sym11030349}, author = {Palomares Caballero, Ángel and Padilla De La Torre, Pablo and Alex Amor, Antonio and Valenzuela Valdes, Juan Francisco and Quevedo Teruel, Óscar}, }