Opal-like photonic crystal with diamond lattice

被引:0
|
作者
García-Santamaría, F [1 ]
Meseguer, F [1 ]
López, C [1 ]
Miyazaki, HT [1 ]
López-Tejeira, F [1 ]
Sánchez-Dehesa, J [1 ]
机构
[1] CSIC, Inst Ciencia Mat Madrid, Madrid 28049, Spain
来源
PHOTONIC BANDGAP MATERIALS AND DEVICES | 2002年 / 4655卷
关键词
photonic band gap; templated materials; diamond structure; nanorobot; nanomanipulation; opals;
D O I
10.1117/12.463900
中图分类号
TH7 [仪器、仪表];
学科分类号
0804 ; 080401 ; 081102 ;
摘要
In this contribution, a method to fabricate a diamond structure with a complete PBG in the near infrared is proposed. The procedure starts by building an opal composed of two types of microspheres (organic and inorganic) in a body-centered-cubic symmetry by means of a micro-robotic technique. Then, the organic particles may be selectively removed to obtain a diamond structure of inorganic particles. Once this structure is assembled its filling fraction may be controlled by sintering. Subsequently this template can be infiltrated with an adequate high refractive index material. In this way, the method can be extended to make diamond inverse opals of, for instance, silicon with gap to mid gap ratios as large as 13% for moderate filling fractions. An over-view of micromanipulation as well as previous experimental results will be offered to show the feasibility of this method.
引用
收藏
页码:42 / 47
页数:6
相关论文
共 50 条
  • [31] Colloidal Particles of Silicon Dioxide for the Formation of Opal-Like Structures
    Masalov, V. M.
    Sukhinina, N. S.
    Emel'chenko, G. A.
    PHYSICS OF THE SOLID STATE, 2011, 53 (06) : 1135 - 1139
  • [32] Colloidal particles of silicon dioxide for the formation of opal-like structures
    V. M. Masalov
    N. S. Sukhinina
    G. A. Emel’chenko
    Physics of the Solid State, 2011, 53 : 1135 - 1139
  • [33] NMR studies of gallium embedded in an opal-like porous medium
    Shabanova, E
    Charnaya, EV
    Schaumburg, K
    Kumzerov, YA
    JOURNAL OF MAGNETIC RESONANCE SERIES A, 1996, 122 (01) : 67 - 71
  • [34] Magnetic topology of Co-based inverse opal-like structures
    Grigoryeva, N. A.
    Mistonov, A. A.
    Napolskii, K. S.
    Sapoletova, N. A.
    Eliseev, A. A.
    Bouwman, W.
    Byelov, D. V.
    Petukhov, A. V.
    Chernyshov, D. Yu
    Eckerlebe, H.
    Vasilieva, A. V.
    Grigoriev, S. V.
    PHYSICAL REVIEW B, 2011, 84 (06)
  • [35] Improving the surface layer structure in opal-like plasmonic-photonic crystals for efficient excitation of optical Tamm states
    Valitova, A. F.
    Koryukin, A., V
    Gazizov, A. R.
    Salakhov, M. Kh
    OPTICAL MATERIALS, 2020, 110
  • [36] Self-assembly of a synthetic opal infiltrated with liquid crystal like photonic crystal
    Rasteniene, L
    Pajeda, S
    Vaisnoras, R
    SELF FORMATION THEORY AND APPLICATIONS, 2004, 97-98 : 245 - 250
  • [37] Transmission spectra changes produced by decreasing compactness of opal-like structures
    Andueza, A.
    Echeverria, R.
    Morales, P.
    Sevilla, J.
    JOURNAL OF APPLIED PHYSICS, 2009, 105 (02)
  • [38] Inverse opal-like systems: correlating mesoscale structure and magnetic properties
    Grigoryeva, Natalia A.
    Mistonov, Alexander A.
    Eckerlebe, Helmut
    Grigoriev, Sergey V.
    ACTA CRYSTALLOGRAPHICA A-FOUNDATION AND ADVANCES, 2011, 67 : C388 - C388
  • [39] Photonic crystals of diamond spheres with the opal structure
    D. N. Sovyk
    V. G. Ralchenko
    D. A. Kurdyukov
    S. A. Grudinkin
    V. G. Golubev
    A. A. Khomich
    V. I. Konov
    Physics of the Solid State, 2013, 55 : 1120 - 1123
  • [40] Photonic crystals of diamond spheres with the opal structure
    Sovyk, D. N.
    Ralchenko, V. G.
    Kurdyukov, D. A.
    Grudinkin, S. A.
    Golubev, V. G.
    Khomich, A. A.
    Konov, V. I.
    PHYSICS OF THE SOLID STATE, 2013, 55 (05) : 1120 - 1123
12345