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| Author | : Anthony Louis Campillo |
| Publisher | : |
| Total Pages | : 264 |
| Release | : 2002 |
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| ISBN | : |
| Author | : Julia W. P. Hsu |
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| Total Pages | : 50 |
| Release | : 2001 |
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| Author | : Julia W. P. Hsu |
| Publisher | : |
| Total Pages | : 50 |
| Release | : 2001 |
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| Author | : J. W. Hsu |
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| Release | : 2001 |
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| Author | : Anatoly V. Zayats |
| Publisher | : Artech House |
| Total Pages | : 379 |
| Release | : 2009 |
| Genre | : Science |
| ISBN | : 1596932848 |
"This groundbreaking book focuses on near-field microscopy which has opened up optical processes at the nanoscale for direct inspection. Further, it explores the emerging area of nano-optics which promises to make possible optical microscopy with true nanometer resolution. This frontline resource helps you achieve high resolution optical imaging of biological species and functional materials. You also find guidance in the imaging of optical device operation and new nanophotonics functionalities"--EBL.
| Author | : Anthony Louis Campillo |
| Publisher | : |
| Total Pages | : 117 |
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| Author | : Aditi Sharma |
| Publisher | : |
| Total Pages | : |
| Release | : 2002 |
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Near field scanning optical microscopy (NSOM) is used to study two different photonic structures. The two structures were a photonic crystal sample and a selectively oxidized vertical cavity surface emitting laser (VCSEL) where spectroscopic NSOM is utilized to investigate the transverse mode structure. NSOM is a unique tool for studying these samples as the optical intensity and the spectroscopic signatures of these samples are characterized with sub-wavelength spatial resolution. The photonic crystal sample is a two-dimensional slab waveguide with a silicon nitride core and silicon dioxide cladding. The photonic lattice comprises of a triangular lattice of 20 rows of air pores, with air pore diameter of 146 nm and lattice constant of 260 nm, etched into the top cladding and the core. Due to the periodic modulation of the dielectric constant in the air pore lattice, a photonic band gap is expected for this lattice in the visible wavelength regime. NSOM was used to characterize the optical intensity distribution within the photonic lattice region at a wavelength of 633 nm. In addition, Bragg reflections were observed from the lattice region and the angular dependence on the angle of incidence of the input beam was recorded and compared to a point scatterer model. The transmission across the lattice was also calculated, in both 2D and 3D, using a program based on a finite difference time domain method and compared to experimental data. The VCSEL sample is a selectively oxidized 850 nm VCSEL having a square aperture of side length 10 micron. An NSOM coupled to a spectrometer is used to obtain both spatially and spectrally resolved images of the VCSEL's emission. The spatially resolved intensity distributions for eight of the lowest order transverse modes of the VCSEL were obtained, in the near field and far field, at three different currents i.e. around threshold (3.3 mA) and above threshold (at 5 mA and 7.5 mA). The modes are identified as being Hermite-Gaussian and their spatial orientations show how they utilize the available gain of the cavity effectively. Two-dimensional maps of the total integrated intensity of the spectra reveal an inhomogeneous gain distribution. The wavelengths of the transverse modes are observed to increase with increasing current at an average rate of 0.145 nm/mA. Calculations showed that a temperature-induced change in refractive index of the cavity was the dominant contributing factor towards this red shift.
| Author | : Gerd Kaupp |
| Publisher | : Springer Science & Business Media |
| Total Pages | : 302 |
| Release | : 2006-10-24 |
| Genre | : Technology & Engineering |
| ISBN | : 3540284729 |
Making a clear distinction is made between nano- and micro-mechanical testing for physical reasons, this monograph describes the basics and applications of the supermicroscopies AFM and SNOM, and of the nanomechanical testing on rough and technical natural surfaces in the submicron range down to a lateral resolution of a few nm. New or improved instrumentation, new physical laws and unforeseen new applications in all branches of natural sciences (around physics, chemistry, mineralogy, materials science, biology and medicine) and nanotechnology are covered as well as the sources for pitfalls and errors. It outlines the handling of natural and technical samples in relation to those of flat standard samples and emphasizes new special features. Pitfalls and sources of errors are clearly demonstrated as well as their efficient remedy when going from molecularly flat to rough surfaces. The academic or industrial scientist learns how to apply the principles for tackling their scientific or manufacturing tasks that include roughness far away from standard samples.
| Author | : Silvia Vignolini |
| Publisher | : Firenze University Press |
| Total Pages | : 92 |
| Release | : 2010 |
| Genre | : Science |
| ISBN | : 8864531378 |
The aim of this thesis consists in the study and modification of complex photonic nano-structures. Nowadays, propagation of light in such materials is a rich and fascinating area of research, both for its fundamental implications and for its practical technological impact. To deeply investigate light propagation inside these structures a high spatial resolution technique is required, especially because intriguing effects often occur on length scales comparable with the diffraction-limit or involve coupling phenomena on this length scale. For this reason in this thesis a Scanning Near-Field Optical Microscope represents one the most straightforward tool both to study and locally modify complex photonic nano-structures from perfect periodic to completely random ones.
| Author | : Dieter W. Pohl |
| Publisher | : Springer Science & Business Media |
| Total Pages | : 440 |
| Release | : 1993 |
| Genre | : Science |
| ISBN | : |
Scanning near-field optical microscopy (SNOM, also known as NSOM) is a new local probe technique with a resolving power of 10--50 nm. Not being limited by diffraction, near-field optics (NFO) opens new perspectives for optical characterization and the understanding of optical phenomena, in particular in biology, microelectronics and materials science. SNOM, after first demonstrations in '83/'84, has undergone a rapid development in the past two to four years. The increased interest has been largely stimulated by the wealth of optical properties that can be investigated and the growing importance of characterization on the nanometer scale in general. Examples include the use of fluorescence, birefrigence and plasmon effects for applications in particular in biology, microelectronics and materials science, to name just a few. This volume emerged from the first international meeting devoted exclusively to NFO, and comprises a complete survey of the 1992 activities in the field, in particular the variety of instrumental techniques that are currently being explored, the demonstration of the imaging capabilities as well as theoretical interpretations - a highly nontrivial task. The comprehensive collection of papers devoted to these and related subjects make the book a valuable tool for anybody interested in near-field optics.
