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Phase behavior of phytanyl-chained akylglycoside/water systems
The aqueous phase behavior of novel alkylglycosides, AGs, that have a 3,7,11,15-tetramethylhexadecyl (phytanyl) group as their hydrophobic part was... -
Adsolubilization by mixtures of ionic and non-ionic surfactants
The adsolubilization of 2-naphthol by surfactant mixtures of ionic and non-ionic surfactants has been investigated for three systems; sodium dodecyl... -
Salt-induced aggregation in cationic liposome suspensions
The simple salt-induced aggregation of small unilamellar dioleoyltrimethylammoniumpropane [DOTAP] vesicles is investigated by measuring the change in... -
Enzymatic activity of lipase entrapped in CTAB/water/pentanol/hexane reverse micelles: a functional and microstructural investigation
The lipase VII (from Candida rugosa) activity was studied as a function of the content of pentanol and water in cethyltrimethylammonium bromide... -
Perfluoropolyether carboxylic salts in micellar solution and O/W microemulsions
High purity laboratory-scale samples of Cl(C3F6O) n CF2COOX salts are examined for their micellization in water, with n... -
Improved colloidal stability by seeded emulsion copolymerization of styrene with acrylic acid
The incorporation of acrylic acid (AA) in styrene (S) latex particles was investigated to improve colloidal stability. AA was added at high S... -
Study of the effect of porogen amount on formation of uniform polystyrene hollow particles prepared by SPG membrane emulsification technique
Uniform polystyrene (PSt) hollow particles were prepared by combining a Shirasu porous glass (SPG) emulsification technique and a subsequent... -
Study of the preparation monodisperse micron-sized PEG-coated polymer particles utilizing different methods
Polystyrene (PS) seed particles in the size range of one to several microns were prepared by dispersion polymerization and swelling techniques.... -
Monolithic Silicon Light Sources
Monolithic silicon light sources (LEDs and lasers) could have a significant impact when integrated on silicon chips. After a general introduction to... -
5. Simulation of Active and Nonlinear Photonic Nano-Materials in the Finite-Difference Time-Domain (FDTD) Framework
A numerical method is presented that unites three-dimensional finite-differnce time-domain (FDTD) computer simulations of active, nonlinear photonic... -
Results for Sr2RuO4
In this chapter, we focus on our results for the elementary excitations and Cooper pairing in strontium ruthenate (... -
10. Main sychronization
It was made clear in Chapter 9 that the second order type-II loop operates either in saturated or in unsaturated mode. In this chapter, only the main... -
4. Main synchronization
In this chapter the main synchronization of the first order PLL is discussed. At first, we perform the local stability analysis of the main... -
8. Main synchronization
In the present chapter the main synchronization of the second order type-I loop is treated. At first, the local stability analysis is presented and... -
Nonlinear superposition formulae of integrable partial differential equations by the singular manifold method
We study by the singular manifold method a few 1+1-dimensional partial differential equations which possess N-soliton solutions for arbitrary N, i.e.... -
Silicon Fundamentals for Photonics Applications
The many and diverse approaches to materials science problems have greatly enhanced our ability to engineer the physical properties of... -
11. Third harmonic synchronization
In this chapter, a brief analysis of the synchronization at the third harmonic of the center VCO frequency is given. The relatively large width of... -
6. Introduction to second order type – I PLL
From the analysis of the first order loop, presented in Part I, it becomes evident that the presence of the ripple in the output of the phase... -
12. Introduction to third order type – II PLL
According to the analysis presented in Part IV, the presence of ripple makes the performance of the second order type-II loop problematic. Therefore,... -
Monolithic Silicon Microphotonics
The technology evolution of optical interconnection is driven by the distance × product required for a given link. As such optical fiber deployment...