By Bernard C. Kress, Patrick Meyrueis

Miniaturization and mass replications have all started to steer the optical within the transition from conventional analog to novel electronic optics. As electronic optics input the area of mainstream know-how in the course of the world wide sale of shopper digital units, this well timed e-book goals to give the subject of electronic optics in a unified approach. starting from micro-optics to nanophotonics, and layout to fabrication via to integration in ultimate items, it reports a few of the actual implementations of electronic optics in both micro-refractives, waveguide (planar lightwave chips), diffractive and hybrid optics or sub-wavelength buildings (resonant gratings, floor plasmons, photonic crystals and metamaterials). eventually, it provides a finished record of commercial and advertisement purposes which are benefiting from the original homes of electronic optics.

Applied electronic Optics is aimed basically at optical engineers and product improvement and technical advertising managers; it's also of curiosity to graduate-level photonics scholars and micro-optic foundries.

  • Helps optical engineers assessment and select the suitable software program instruments to layout, version and generate fabrication files.Content:
    Chapter 1 From Refraction to Diffraction (pages 5–13):
    Chapter 2 category of electronic Optics (pages 15–20):
    Chapter three Guided?Wave electronic Optics (pages 21–46):
    Chapter four Refractive Micro?Optics (pages 47–69):
    Chapter five electronic Diffractive Optics: Analytic variety (pages 71–109):
    Chapter 6 electronic Diffractive Optics: Numeric variety (pages 112–156):
    Chapter 7 Hybrid electronic Optics (pages 157–179):
    Chapter eight electronic Holographic Optics (pages 181–215):
    Chapter nine Dynamic electronic Optics (pages 217–252):
    Chapter 10 electronic Nano?Optics (pages 253–293):
    Chapter eleven electronic Optics Modeling ideas (pages 295–338):
    Chapter 12 electronic Optics Fabrication ideas (pages 339–411):
    Chapter thirteen layout for production (pages 413–452):
    Chapter 14 Replication innovations for electronic Optics (pages 453–478):
    Chapter 15 Specifying and checking out electronic Optics (pages 479–520):
    Chapter sixteen electronic Optics program swimming pools (pages 521–579):

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Extra info for Applied Digital Optics: From Micro-Optics to Nanophotonics

Example text

There are roughly five different groups of digital free-space optics that have been reported in the literature since 1967 (when Professor Adolph Lohmann first introduced the concept of the ‘Synthetic Hologram’ [3]), which are categorized not so much according to their optical functionalities but, rather, with reference to the design techniques and the physical implementations used to manufacture them [1]. From that time onwards, Fourier optics has become an important part of modern optics technology, mainly due to the early works of Professor Joseph Goodman at Stanford [4].

10). Through TIR, the waves may bounce between the guide walls, as they would for an optical fiber waveguide. 7). This means that the dielectric slab waveguide will only support a finite number of modes. 7) is very difficult to solve analytically, the eigenvalues bn must be found numerically. 1)). 4 has shown the simple example of a planar slab waveguide. This waveguide was invariant in the x and y directions. We will now focus on channel waveguides that confine the guided wave within a small section, much as an optical fiber would do.

Two channel waveguides (or more) are fabricated on a single substrate and separated by a fixed distance. A directional coupler works by coupling together the modes traveling in the same direction. 18 shows the basis of a direction coupler. 18 The directional coupler and the Y-junction Applied Digital Optics 36 A Y-junction is basically a power splitter that couples light into one or more cores from a single core. 7). The amount of splitting occurring in a Y-junction is a function of thegeometry of each arm.

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