000 02245nam a2200397 i 4500
001 CR9781108782371
003 UkCbUP
005 20230516164915.0
006 m|||||o||d||||||||
007 cr||||||||||||
008 190607s2020||||enk o ||1 0|eng|d
020 _a9781108782371 (ebook)
020 _z9781108749237 (paperback)
040 _aUkCbUP
_beng
_erda
_cUkCbUP
050 4 _aTK7871.15.M48
_bL5 2020
082 0 4 _a620.11
_223
100 1 _aLi, Rujiang,
_eauthor.
_968081
245 1 0 _aMetamaterials and negative refraction /
_cRujiang Li, Zuojia Wang, Hongsheng Chen.
264 1 _aCambridge :
_bCambridge University Press,
_c2020.
300 _a1 online resource (73 pages) :
_bdigital, PDF file(s).
336 _atext
_btxt
_2rdacontent
337 _acomputer
_bc
_2rdamedia
338 _aonline resource
_bcr
_2rdacarrier
490 1 _aCambridge elements. Elements in emerging theories and technologies in metamaterials,
_x2399-7486
500 _aTitle from publisher's bibliographic system (viewed on 08 Dec 2020).
520 _aThe discovery of artificial electromagnetic materials, called metamaterials, not only redefines the human perception of constitutive parameters in electromagnetic theory, but also brings forward new phenomena, such as negative refraction. We provide a comprehensive introduction to the unique characteristics of metamaterials, starting with Maxwell's equations and the kDB coordinate system, and moving through to theoretical concepts and design principles of negative refraction in metamaterials. For each kind of media, including isotropic, anisotropic and bianisotropic metamaterials, we discuss the characteristic waves and their properties. We show examples of negative refraction both theoretically and experimentally.
650 0 _aMetamaterials
_xElectric properties.
_968082
650 0 _aMetamaterials
_xOptical properties.
_968083
650 0 _aNegative refraction.
_968084
700 1 _aWang, Zuojia,
_eauthor.
_968085
700 1 _aChen, Hongsheng,
_eauthor.
_968086
776 0 8 _iPrint version:
_z9781108749237
830 0 _aElements of emerging theories and technologies in metamaterials,
_x2399-7486.
_968087
856 4 0 _uhttps://doi.org/10.1017/9781108782371
942 _cEBK
999 _c82236
_d82236