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41,311 results

1. Photonic modes in soft optical tilings (SPIE paper: Design of two-dimensional photonic crystals using geometry and self-similarity)

Author

Urban Mur, Miha Ravnik, and Peter Ropac

Subjects
Physics, Optics, Self-similarity, business.industry, Band gap, Physics::Optics, Boundary (topology), Dielectric, Soft matter, Photonics, business, Photonic crystal
Abstract

We show photonic responses of selected two-dimensional photonic crystals that are based on a combination of geometrical design and spatial self-similarity. Structures based on multi-layer circles, squares, and triangles are studied, finding a range of local band gaps that can be varied with the self-similarity of the photonic crystal patterns. Selected photonic modes are shown that couple to different geometrical features of the photonic crystal. The role of boundary sharpness between the two dielectric components is emphasized.

Published
2021

3. 100 Hz repetition rate, >2 PW/sr-cm2 highly brightness micro-MOPA within the paper size A3 (Conference Presentation)

Author

Vincent Yahia, Taisuke Kawasaki, and Takunori Taira

Subjects
Brightness, Materials science, Laser diode, business.industry, Amplifier, law.invention, Pulse (physics), Lens (optics), Optics, law, Thermal, Focal length, business, Beam (structure)
Abstract

>2 PW/sr-cm2 highly brightness Micro-MOPA was achieved. This Micro-MOPA can generate 100 mJ-class and PW/sr-cm2-class pulse with the A3 paper size footprint.100 Hz operation of the Micro-MOPA with over 2 PW/sr/cm2 was achieved. Micro-MOPA system can generate 100 mJ-class and PW/sr/cm2-class pulse with paper size footprint. However, previous repetition rate is limited to 10 Hz in spite of the oscillator and the amplifier design for 100Hz operation due to its thermal problem. However, current repetition rate is limited to 10 Hz in spite of the oscillator and amplifier design for 100Hz operation, because tThe laser diode side-pumped Nd:YAG rod of the amplifier for Micro-MOPA causes lens effect in high brightness beam operation and the focused beam from the rod causes damage to optics. We measured the thermal lens effect of the amplifier Nd:YAG rod to optimize the design of 100 Hz and PW/sr-cm2 class Micro-MOPA. Measured thermal lens focal length at 100 Hz is 0.5 m, and we found thermal lens have no significant time dependence in spite of its QCW pumping. From this result, we insert the optics with composite focal length of 0.45 m to cancel thermal focusing. On the other hand, such the optics is designed on the assumption of thermal lensing, therefore, we have to align optics with pumped amplifier. However, unaligned pumped beam already has 100mJ class energy and it is easy to break optics. To keep thermal lensing constant and to avoid this difficulty, we focused that thermal lensing have no significant time dependence and propose procedure for alignment and amplified energy control by using pumping delay timing shift between oscillator and amplifiere. From these improvements, we have demonstrated the 100 Hz operation of the Micro-MOPA with over 2 PW/sr-cm2.

Published
2019

4. Graphene oxide paper as a saturable absorber for Er-doped fiber laser

Author

Grzegorz Sobon, Jan Tarka, Krzysztof Librant, Jakub Boguslawski, Rafal Kozinski, Krzysztof M. Abramski, Jaroslaw Sotor, and Ludwika Lipińska

Subjects
Fabrication, Materials science, Graphene, business.industry, Physics::Optics, Saturable absorption, Laser, law.invention, Optics, Mode-locking, law, Fiber laser, Absorption (electromagnetic radiation), business, Graphene oxide paper
Abstract

In this work, femtosecond pulse generation in Er-doped fiber laser using graphene oxide (GO) paper based saturable absorber (SA) is presented. The article includes the characterization of optical properties of prepared SA material and detailed description of the laser performance. Stable mode-locking operation was achieved, with 515 fs soliton pulses centered at 1559 nm. The GO paper SA is characterized by 5.4% modulation depth and 155 MW/cm 2 of saturation intensity. The nearly wavelength-independent linear absorption combined with straightforward fabrication process make it a suitable material for application as a SA in low-power mode-locked fiber lasers operating in various spectral ranges.

Published
2014

5. Physical and optical dot gain: characterization and relation to dot shape and paper properties

Author

Mahziar Namedanian, Sasan Gooran, Daniel Nyström, and Paula Yadranka Žitinski Elias

Subjects
Nominal size, Coated paper, Materials science, Optics, Halftone, Quantum dot laser, business.industry, Optical transfer function, Chromatic scale, Dot gain, Condensed Matter::Mesoscopic Systems and Quantum Hall Effect, business, Light scattering
Abstract

The tone value increase in halftone printing commonly referred to as dot gain actually encompasses two fundamentally different phenomena. Physical dot gain refers to the fact that the size of the printed halftone dots differs from their nominal size, and is related to the printing process. Optical dot gain originates from light scattering inside the substrate, causing light exchanges between different chromatic areas. Due to their different intrinsic nature, physical and optical dot gains need to be treated separately. In this study, we characterize and compare the dot gain properties for offset prints on coated and uncoated paper, using AM and first and second generation FM halftoning. Spectral measurements are used to compute the total dot gain. Microscopic images are used to separate the physical and optical dot gain, to study ink spreading and ink penetration, and to compute the Modulation Transfer Function (MTF) for the different substrates. The experimental results show that the physical dot gain depends on ink penetration and ink spreading properties. Microscopic images of the prints reveal that the ink penetrates into the pores and cavities of the uncoated paper, resulting in inhomogeneous dot shapes. For the coated paper, the ink spread on top of the surface, giving a more homogenous dot shape, but also covering a larger area, and hence larger physical dot gain. The experimental results further show that the total dot gain is larger for the uncoated paper, because of larger optical dot gain. The effect of optical dot gain depends on the lateral light scattering within the substrate, the size of the halftone dots, and on the halftone dot shape, especially the dot perimeter.

Published
2014

6. Experimental verification of a MWIR/LWIR 3x continuous zoom lens (Rising Researcher Paper)

Author

Jamie L. Ramsey, P. F. Wachtel, Richard Campbell, John Deegan, George P. Lindberg, and J. D. Musgraves

Subjects
Zoom lens, Computer science, business.industry, Abbe number, Detector, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, law.invention, Lens (optics), Wavelength, Optics, law, Dispersion (optics), Chromatic scale, Zoom, business
Abstract

With new detectors that are capable of imaging across multiple wavelength bands, new methods need to be developed to reduce the lens count and improve performance across these multiple bands while minimizing the SWAP-c (Size, Weight, power and cost) of the system. One method that was proposed was using an update to the classical γν-ν diagram. This method which, uses instantaneous Abbe number and minimum dispersion wavelength to select materials that minimize the chromatic and thermal focal shift over the desired spectral region. A MWIR/LWIR lens was designed using this method to minimize the lens count. The lens has a continuous 3x zoom range. The lens was manufactured to determine the validity of the method that was used and to evaluate the new materials that are being developed. A comparison of the nominal design to the manufactured design is discussed. This includes a comparison of MTF performance.

Published
2019

7. The research of some polygraphic paper samples’s polarization characteristics

Author

Artem V. Motrych, A. D. Arkhelyuk, Yuriy G. Dobrovolskyi, and Mykhailo S. Gavryliak

Subjects
Polygraph, Azimuth, Materials science, Structural organization, Optics, business.industry, Linearly polarized light, Polarization (waves), business, Light scattering
Abstract

Methods of investigation the polarization characteristics of certain types of polygraph paper were described. The most effective method for estimation of the characteristic features of optical heterogeneities of polygraph paper was proposed. The greatest sensitivity to the structural organization of optical heterogeneities of paper was observed for linearly polarized light beams with 90 degree polarization azimuth.

Published
2018

8. Smart pressure and temperature measurement on paper machine rolls: an embedded fiber Bragg grating sensor system enables continuous nip monitoring during paper production

Author

Matthias Schmitt, Yang Shieh, Wolfgang Ecke, Lothar Zöller, and Eric Lindner

Subjects
Materials science, business.product_category, Embedment, business.industry, Acoustics, Grating, Rotation, Temperature measurement, Power (physics), Optics, Paper machine, Fiber Bragg grating, Fiber optic sensor, business
Abstract

Special fiber Bragg grating (FBG) sensor embedding and interrogation schemes have been designed to capture the momentary peak pressure forces in the nip of adjacent paper machine rolls, and the spatial distribution of these nip forces along circumference and length of the roll, for production speeds of up to 2000 m/min. Additionally, this FBG sensor system measures the temperature distribution in the roll cover. FBG sensor embedment has been investigated and optimized for the implementation of pressure force measurements in various roll cover materials. These measurements enable immediate quality control during various stages of the production process. Draw Tower Grating sensor arrays, simultaneously performing spectrometric interrogation, and autonomous power supply technologies result in an extremely robust fiberoptic sensor system operating at rotation speeds of 700 rpm, equivalent to centrifugal accelerations of 300 G.

Published
2012

9. Measure of roughness of paper using speckle

Author

Abdiel Osvan Pino, Josep Pladellorens, Universitat Politècnica de Catalunya. Departament d'Òptica i Optometria, and Universitat Politècnica de Catalunya. GREO - Grup de Recerca en Enginyeria Òptica

Subjects
Materials science, Paper -- Indústria i comerç, business.industry, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Measure (physics), Image processing, Surface finish, engineering.material, Paper -- Superfícies, Paper coatings, Speckle pattern, Co-occurrence matrix, Digital image, Surface roughness, Optics, Speckle, Coating, Digital image processing, engineering, Enginyeria paperera::Productes paperers::Paper [Àrees temàtiques de la UPC], business, ComputingMethodologies_COMPUTERGRAPHICS
Abstract

Roughness of a paper surface is particularly important in paper and board destined to be printed. Surfaces are often coated and the amount of coating and method of application used depends on the roughness of the base paper. We present a method of measure of the roughness of the paper based in the analysis of speckle pattern on the surface. Images are captured by means of a simple configuration using a laser and a camera CCD. Then, we apply digital image processing using the co-occurrence matrix, so this method can be considered as a non-contact surface profiling method, that can be used online.

Published
2009

10. A new bi-primary color system for doubling the reflectance and colorfulness of e-paper

Author

Jason Heikenfeld

Subjects
Pixel, Computer science, business.industry, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Colorfulness, Reflectivity, law.invention, Gamut, Optics, Primary color, law, RGB color model, Computer vision, Artificial intelligence, Electronic paper, business, ComputingMethodologies_COMPUTERGRAPHICS
Abstract

There are several paradigms for color generation in reflective displays (e-Paper) including RGBW color filtering or stacked RGB or CMY. Theoretically, the highest white state reflectance and best color gamut are achieved by stacking three layers of pixels. However, stacking 3 layers induces significant optical losses especially at high resolution and typically does not allow for video operation. Therefore RGBW color filtering is currently preferred for higher resolution and single-layer e-Paper, but only provides color at 25% of the area and a maximum theoretical white reflectance of 50%. Presented herein is a new bi-primary color-system that cooperatively displays two complimentary colors inside a single sub-pixel, and therefore doubles the white state reflectance and color gamut for single-layer e-Paper. Also discussed are candidate e-Paper technologies that may be able to adopt the bi-primary color system, including possible advantages and challenges for each technology.

Published
2011

11. Minimizing tone reversal during 19x nm mask inspection: PMJ18 Best Paper (Conference Presentation)

Author

Toshio Konishi, Karen D. Badger, Takeshi Isogawa, Kazunori Seki, Jan Heumann, Masashi Yonetani, Anka Birnstein, and Yutaka Kodera

Subjects
Computer science, business.industry, media_common.quotation_subject, Extreme ultraviolet lithography, Mask inspection, humanities, stomatognathic diseases, Tone (musical instrument), Optics, Extreme ultraviolet, Contrast (vision), Node (circuits), Sensitivity (control systems), business, Lithography, media_common
Abstract

EUV (Extreme Ultraviolet) lithography is one of the most promising techniques for imaging 5-nm node and beyond wafer features. Mask defects that matter are the ones that print during exposure at 13.5 nm wavelength. To support EUV development and production schedules, mask defectivity must be reduced to be at or near the optical defect levels. This task is complicated by the fact that actinic EUV mask inspectors are not currently available. In the absence of an actinic EUV inspection tool, all available methods for detecting and characterizing defects must be deployed. Based on extensive deployment and experience in the industry with optical masks, and on its record for reasonable throughput, 19x nm wavelength inspection is one of the strongest candidates available today, for the initial EUV mask inspection approach. However, there are several key challenges with 19x nm optical inspection of EUV masks. One such challenge is defect sensitivity. Another challenge is that EUV mask pattern image contrast changes as a function of pattern size and pitch. This is often referred to as “Tone Reversal”, and it is a phenomenon that occurs for specific features. It is essential to understand the impact of tone reversal on defect sensitivity and overall inspectability, specifically for image sizes and pitches at the point of tone reversal, and for those immediately on either side of the tone reversal. In this study, the relationship between base pattern contrast and absorber defect sensitivity will be discussed through the analysis of programmed defect macros (PDMs). We will also discuss whether we can influence the point at which tone reversal occurs and furthermore, whether that reversal point can be tailored to specific patterns sizes or pitches. We will demonstrate how inspection parameter optimization can be done to tailor 19x inspection to specific layer and specific groundrules to maximize both sensitivity and inspectability.

Published
2018

13. Effect of paper porosity on OCT images: Monte Carlo study

Author

Mikhail Yu. Kirillin, Alexander V. Priezzhev, and Risto Myllylä

Subjects
Materials science, medicine.diagnostic_test, business.industry, Scattering, Monte Carlo method, Sample (graphics), Optics, Optical coherence tomography, Optical clearing, Paper sample, medicine, Fiber, Porosity, business
Abstract

Non-invasive measurement of paper porosity is an important problem for papermaking industry. Presently used techniques are invasive and require long time for processing the sample. In recent years optical coherence tomography (OCT) has been proved to be an effective tool for non-invasive study of optically non-uniform scattering media including paper. The aim of present work is to study the potential ability of OCT for sensing the porosity of a paper sample by means of numerical simulations. The paper sample is characterized by variation of porosity along the sample while numerical simulations allow one to consider the samples with constant porosity which is useful for evaluation of the technique abilities. The calculations were performed implementing Monte Carlo-based technique developed earlier for simulation of OCT signals from multilayer paper models. A 9-layer model of paper consisting of five fiber layers and four air layers with non-planar boundaries was considered. The porosity of the samples was varied from 30 to 80% by varying the thicknesses of the layers. The simulations were performed for model paper samples without and with optical clearing agents (benzyl alcohol, 1-pentanol, isopropanol) applied. It was shown that the simulated OCT images of model paper with various porosities significantly differ revealing the potentiality of the OCT technique for sensing the porosity. When obtaining the images of paper samples with optical clearing agents applied, the inner structure of the samples is also revealed providing additional information about the samples under study.

Published
2007

14. Optical coherence tomography of paper: Monte Carlo simulation for multilayer model

Author

Mikhail Yu. Kirillin, Risto Myllylä, and Alexander V. Priezzhev

Subjects
Engineering, genetic structures, medicine.diagnostic_test, business.industry, Physics::Medical Physics, Monte Carlo method, Experimental data, Sample (graphics), eye diseases, Characterization (materials science), Optics, Quality (physics), Optical coherence tomography, Optical clearing, Paper sample, medicine, sense organs, business
Abstract

In present work the capabilities of an optical coherence tomography (OCT) setup to visualize paper structure are analyzed by means of Monte Carlo-simulation of the OCT images. The OCT setup at 910 nm was considered. Efficiency of several different optical clearing agents (OCA) for increasing the quality of the obtained images was studied. A multilayer non-planar edged paper model was developed for the characterization of a paper sample and simple recovery of its parameters. The effect of the setup parameters on the obtained OCT-images was studied. It was shown by comparison with the experimental data that the developed model provides satisfactory resemblance of simulated and experimental images of papers sample structure.

Published
2007

15. Applying of the optical time-of-flight spectroscopy for the paper and pulp characterization

Author

Jerzy Pluciński

Subjects
Materials science, Softwood, Streak camera, business.industry, Pulp (paper), Photodetector, engineering.material, Laser, Talc, law.invention, stomatognathic diseases, Time of flight, Optics, stomatognathic system, law, engineering, medicine, Spectroscopy, business, medicine.drug
Abstract

The paper presents benefits of optical time-of-flight spectroscopy for the pulp and paper characterization. A semiconductor pulse laser and a streak camera as the photodetector were utilized in experimental part of research described in this paper. Distribution of the time of flight of photons through various kinds of wood pulp (e.g. pulp after mechanical treatment coming both fi-om tree species giving hard and soft wood and pulp after thermo-mechanical treatment) was measured. The pulp samples used in the measurements had consistency ranging from 0 to 5% of dry mass in the suspension. The influence of additives (kaolin, talc and calcium carbonate) present in the suspension on the time of flight distribution of photons was studied as well. Finally, dependence of the time of flight of photons through various kinds of the paper (i.e. newspaper, copy paper, and tissue) on the thickness of the sample was investigated.

Published
2006

16. Determination of the refractive index of paper with clearing agents

Author

Tapio Fabritius, Juha Saarela, and Risto Myllylä

Subjects
Photon, Softwood, Geometrical optics, Chemistry, business.industry, Pulp (paper), Propagation delay, engineering.material, Light scattering, Optics, engineering, Transmittance, business, Refractive index
Abstract

The refractive index of paper was determined by measuring the propagation delay of photons in optically cleared paper boards. The determination was based on the assumption that photon propagation delay achieves minimum value as the paper is optimally cleared. The measured paper sheets was made from elemental chlorine-free market pulp, i.e. fully bleached, unbeaten, softwood kraft pulp. Nine different clearing agents with a refraction index between 1.329 and 1.741 were eLuperimented with. According to the streakmem measurements, the refractive index of the test paper was 1.557.

Published
2006

17. Quantitative fluorescence detection of phenylalanine in blood spots on filter paper

Author

Yuezhi Li, Fengjun Liu, Gang Xu, and Xuemin Wang

Subjects
Photomultiplier, Optical fiber, Filter paper, business.industry, Chemistry, Phenylalanine, Fluorescence, Fluorescence spectroscopy, law.invention, Optics, law, Spectral width, Fiber, business
Abstract

Phenylketonuria is a genetic disease, which causes the metabolization disorder of phenylalanine, this disorder would damage the neural system of infants as a result of the accumulation of phenylalanine in blood. Therefore, it is of great importance to diagnose and treat phenylketonuria as early as possible for newborns. The aim of this paper is to develop a fluorescence detection system to measure blood phenylalanine concentration of new-born infants. In this design, a high luminance ultraviolet LED is used for excitation source, and a kind of bifurcated optical fiber assembly is applied for conduction of light. The excitation source is filtered and coupled into quartz fibers of the bifurcated fiber assembly for conduction of light to excite the fluorescence of phenylalanine in blood sample. The collected fluorescence is transmitted along the glass fibers of the assemblies and coupled to a photomultiplier tube. The fluorescence is filtered with 470~500 nm band-pass filter to subdue scattered excitation light and to limit the spectral width of the detected fluorescence. By the comparison with a standard instrument, the new system with low power consumption, low cost and small size is also proven sensitive and accurate, which meets the demand of clinical phenylketonuria screening.

Published
2007

18. Light scattering in paper measured with a time-of-flight lidar

Author

Juha Saarela and Risto Myllylä

Subjects
Materials science, Geometrical optics, business.industry, Scattering, Paper density, Laser, Light scattering, law.invention, Time of flight, Lidar, Optics, law, business, Refractive index
Abstract

This paper studies the correlation between the time-of-flight (TOF) of laser pulses and paper density, basis weight, thickness and the beating of pulp. Paper samples made from unbeaten and beaten pulp were compressed from 500kg/m3 to 1100kg/m3 and laser pulses were shot through them during pressing. Changes were observed in the thickness of the samples and in the TOF of the laser pulses. The results show that TOF decreases during comrpession. This indicates that distances between the various scattering surfaces decrease. This phenomenon becomes more pronounced as the basis weight increases. The beating of the pulp before papermaking increases the number of scattering surfaces, thus broadening the laser pulse and causing delay. These two effects cannot be separated with the equipment used. Papers made from different pulp types each have unique delay constants.© (2003) COPYRIGHT SPIE--The International Society for Optical Engineering. Downloading of the abstract is permitted for personal use only.

Published
2003

19. Threshold and grayscale stability of Microcup electronic paper

Author

Rong-Chang Liang, HongMei Zang, Jiunn-Jye Hwang, Xin Weng, Haiyan Gu, Jack Hou, and Yajuan Chen

Subjects
Materials science, Bistability, business.industry, Grayscale, law.invention, Active matrix, Threshold voltage, Optics, law, Modulation, Contrast ratio, Electronic paper, business, Pulse-width modulation
Abstract

Plastic passive matrix (PM) and active matrix (AM) electronic paper displays (EPDs) have been prepared by SiPix's Microcup® roll-to-roll manufacturing processes using ITO/PET films. The Microcup® displays have shown outstanding environmental stability and excellent physico-mechanical properties such as scratch, impact and flexure resistances even in high temperature and humidity conditions. A PMEPD recently prepared on inexpensive row-and-column patterned ITO/PET films has shown a contrast ratio of >10, ta n 15 V. More than 8 levels of grayscale with outstanding bistability have been demonstrated by either pulse width or pulse count modulation. No noticeable degradation of the mid-tone images has been observed even after the power was turned off for more than 5 days. Moreover, the electro-optical responses, particularly the threshold voltage and gamma of the PMEPDs remain essentially the same within a wide range (20-60°C) of operation temperature.

Published
2004

20. Paper surface diffraction to characterize the fiber orientation distribution

Author

Jose Teixeira, Mário José Teixeira Pereira, Paulo Torrão Fiadeiro, and Jacques Silvy

Subjects
Surface (mathematics), Diffraction, Optics, Paper machine, business.product_category, Materials science, business.industry, Tension (physics), Orientation (computer vision), Ultrasonic sensor, business, Anisotropy, Measure (mathematics)
Abstract

Many paper mills use ultrasonic techniques to measure the Tensile Stiffness Index, TSI, of the paper sheet. They then assume that the TSI value is the same as the fibre orientation anisotropy. This is true if the paper is allowed to dry without any internal tension or elongation, but does not apply to paper manufactured in a paper machine. The paper machine introduces tension and elongation as soon as the fibre is placed on the forming fabric. These factors increase through the press section and are accentuated in the drying section. In order to uniquely measure the fibre orientation anisotropy on the surfaces, the proposed method uses replicas of both paper surfaces to produce a laser diffraction pattern. The obtained pattern reveals an elliptical shape, which is related to the fibre orientation anisotropy of the paper surface. By measuring the ellipticity of the diffraction pattern and the deviation with respect to the machine direction, one can quantify the fibre orientation distribution. Different papers from the bench market have been successfully tested with the developed system. This article describes the new developed optical system and its innovative capabilities in the field to produce maps of the fibre orientation of a complete paper sheet surface. A selection of the obtained results to prove its feasibility is also presented.

Published
2001

21. Middle infrared hyperspectral imaging of adhesives, varnishes and inks on Al plate and papers by using a bolometer camera and an imaging type interferometer

Author

Yoshihiko Nakayama, Shigeru Sugawara, Yasuyuki Tsutsui, Ichiro Ishimaru, Hideya Taniguchi, Tsubasa Saito, and Mitsuhiro Yoshida

Subjects
Chemical imaging, Materials science, business.industry, Bolometer, Michelson interferometer, Hyperspectral imaging, law.invention, Interferometry, chemistry.chemical_compound, Optics, chemistry, law, Astronomical interferometer, Optoelectronics, Mercury cadmium telluride, Fourier transform infrared spectroscopy, business
Abstract

We built a hyperspectral imaging apparatus using middle-infrared light of 8–14 μm, which has a strong ability to identify organic materials, and attempted visualization of the distribution of organic materials that could not be identified by a naked eye. For this purpose, we utilized a low-cost bolometer camera (Nippon Avionics co., ltd. C100V, Japan) for its easy availability rather than an expensive mercury cadmium telluride (MCT) array sensor. To compensate for the low sensitivity of this bolometer, we adopted a Fourier-type spectroscopic system (Aoi Electronics co. ltd., Japan) using an imaging interferometer devised by the Kagawa University, Japan; this interferometer has higher light-utilization efficiency than Michelson interferometers, which are used in popular interferometry techniques. In this study, 4 types of adhesives, 9 types of varnishes and more than 50 types of inks were put on Al plates of size 10 cm × 10 cm and were used as samples. Glossy paper for printing photos with an inkjet printer was also used as a sample. A 300 °C black body of size 15 cm × 15 cm was used as a light source. Spectra of 320 × 240 points were measured at a wavelength resolution of approximately 9 cm−1. The mirror was scanned only once. The measurement time was approximately 30 s. Hyperspectral images of adhesives, varnishes and inks on Al plate and paper were successfully measured. Spectra over a 5 × 5-pixel neighborhoods were averaged, and the averaged spectra were compared with those measured by a commercially available Fourier transform infrared (FTIR) spectroscopy. The averaged and measured spectra had absorption peaks at the same wavelengths. Furthermore, by analyzing the measured spectra, the distribution of substances invisible to the naked eye was visualized. Our results show that if low-absorbance organic materials are put on a high-reflectance surface such as an Al plate, the middle-infrared hyperspectral imaging could be measured using a bolometer. Additionally, hyperspectral imaging of high-reflectance paper, such as glossy paper, could also be measured. Because a bolometer camera is much cheaper than an MCT array, hyperspectral imaging with such a camera has many potential applications. Moreover, an imaging interferometer, with its high efficiency of light utilization, is very suitable for the purpose.

Published
2016

22. Study on paper's basis weight measurement method by double monochromatic light sources

Author

Lili Zhang, Jing-Ji Wen, Changtao Mo, Zhidan Xu, Shuai Huan, Guangming Wang, Ming Wang, Hailin Su, and Jia Lv

Subjects
Infrared, business.industry, Chemistry, law.invention, Wavelength, Optical path, Optics, law, Modulation, Electrical equipment, Nondestructive testing, Optoelectronics, Monochromatic color, business, Light-emitting diode
Abstract

Given monochromatic infrared LED (light emitting diode) device best modulation current, frequency, distance to reach its maximum output power and improve the measuring accuracy of quantifier. Design a wavelength of 2.12 μm, 1.89 μm monochromatic infrared emissions and detection optical path, two monochromatic infrared lights which the photo source sends out after transmits the analyte across the same point to achieve the same point detection and improve the accuracy of the measurement. After the paper samples basis weight have carried out nondestructive testing, which was improved from the aspects of structure. By using the light source, halogen tungsten lamp, filter wheel, electrical equipment can be saved, and it can simplify the measuring system. The experimental results show that when measuring the thickness of the paper in the range, the relative error is within 1%.

Published
2016

23. Color photographic paper dye density estimate using wavelength-dependent optical properties

Author

Thomas P. McElwain, Lon N. Pringle, and Bruce B. Glasgow

Subjects
Engineering, Pixel, business.industry, Optical engineering, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Basis function, Wavelength, Optics, Reflection (mathematics), Computer data storage, Computer vision, Artificial intelligence, business, Digitization, Photographic paper
Abstract

A methodology has been developed to digitize images from photographic color paper (reflection prints) and store the spectral information as a function of the three dye density basis functions inherent to the paper film type. The result is a highly accurate digitization of the spectral information at each spatial pixel that can be digitally stored with very little additional storage space over conventional RGB-type methodologies.© (1996) COPYRIGHT SPIE--The International Society for Optical Engineering. Downloading of the abstract is permitted for personal use only.

Published
1996

24. IR frequency analysis in paper industry

Author

Ari Ekholm, Osmo Santamaki, and Matti Laehdeniemi

Subjects
Frequency analysis, business.industry, Computer science, Optical engineering, System of measurement, Process (computing), engineering.material, Pulp and paper industry, law.invention, symbols.namesake, Quality (physics), Fourier transform, Optics, Coating, law, Line (geometry), symbols, engineering, business
Abstract

IR monitoring is a basic tool for quality control and predictive maintenance in the paper industry. There are also other possible interests, e.g. measurements of temperature profiles of high speed production lines. The first possibility to use IR for the above mentioned use appears to be applications of glass heat treatment in on line production. At this time there is a lot of interest to be able to measure temperature profiles from a fast moving surface (e.g. in paper machines) with velocities like 10 - 20 m/s. Normal low speed line scanners typically give scanning speed of 50 Hz which in this case means 20 m/s/50 Hz equals 40 cm resolution. The obtained resolution is not normally high enough. To have more accurate vision from the studied surface IR camera line scanning was proposed to be a solution with line scanning frequencies of 8000 Hz which would provide resolution of 20 m/s/8000 Hz equals 0.25 cm between surface points. It is a well-known fact that all undesired frequencies in paper transfer systems disturb the uniform paper drying process which in some cases is the basic reason for low quality coating or even broken paper line. The possibility to detect these drying problems with IR frequency analysis will give a new way to control the paper drying process. With IR analysis it is possible to get information about temperature distributions along the paper track. Using a well established frequency analysis as a tool, the error estimations are obtained. In most cases an open-roll image from paper track is very desirable because there are no existing wide area measurement systems for this purpose. The careful analysis of this new method is given in the manuscript.© (1996) COPYRIGHT SPIE--The International Society for Optical Engineering. Downloading of the abstract is permitted for personal use only.

Published
1996

25. High-selectivity cleaning of historical paper samples with sizing through femtosecond laser ablation

Author

Gurcan Mavili, Mehmet Uğuryol, Çetin Yaman, Selcuk Akturk, and Tansu Ersoy

Subjects
Materials science, Laser ablation, business.industry, Scanning electron microscope, Laser, Sizing, law.invention, Optics, law, Femtosecond, Fiber, business, Layer (electronics), Ultrashort pulse
Abstract

Laser ablation offers cleaning method for historical and art works effectively. Difference between ablation threshold of contamination layer and the surface yields to remove contaminants from surface without detriment to historical material. In particular, lasers with ultrashort pulse duration are very convenient for brittle historical papers, fibers of which should be intact after cleaning treatment. Since duration of laser irradiation and material interaction is very short, the possibility of damage to the paper is very low. One of the other crucial issues after paper cleaning treatment is color variation on the surface. Authentic color of the historical paper has to be preserved after the procedure. In this paper, we present results of paper cleaning via femtosecond (fs) laser running at a wavelength of 1030 nm. In the first stage of this experimental study, we determined optimum laser parameters on artificially soiled and aged paper samples, then cleaned a handwritten manuscript with ‘sizing’. In calligraphy, ornamentation and miniature arts, sizing is applied on paper as a protective layer which increases strength of paper and renders it more useful. Papers with sizing have been prevalently used in Islamic or Ottoman culture. We observed that after laser irradiation, artificial soling layer is effectively removed, while original color of the subs-layers did not alter. We used scanning electron microscopy (SEM) to examine fiber integrity, and determined that the sizing layer was not removed when optimized parameters were used, thus the fibers were not damaged.

Published
2015

26. Light scattered by coated paper

Author

Jun-Feng Song, Egon Marx, Thomas R. Lettieri, and Theodore V. Vorburger

Subjects
Coated paper, Materials science, business.industry, Isotropy, Surface finish, Laser, Light scattering, law.invention, Optics, Optical coating, law, Specular reflection, business, Stylus
Abstract

Angle-resolved light scattering (ARLS) was used to investigate the roughness of coatings on glossy paper. Angular spectra were measured for laser light scattered from several glossy paper samples and from uncoated paper. These spectra are compared to those calculated using the Beckmann model of a random surface that is isotropic and rough in two dimensions. Such a surface is characterized by its rms roughness and autocorrelation function, which are determined from surface profiles measured with a stylus instrument. There is very good agreement between the measured and the computed ARLS spectra. The surfaces are too rough to produce a specular beam large enough to provide an accurate value of the rms roughness, but ARLS provides information about the coating roughness when the measured spectra are cornpared to computed ones.

Published
1991

27. Study of repeatability of an optical laser system for characterization of the paper fiber distribution and mass density

Author

Paulo Torrão Fiadeiro, António de Oliveira Mendes, Maria Emília Amaral, Ana Paula Cabral Seixas Costa, and Mohamed Naceur Belgacem

Subjects
Optics, Materials science, business.industry, law, Experimental work, Repeatability, Fiber, business, Laser, Characterization (materials science), law.invention
Abstract

This work addresses the study of repeatability of an optical laser system, previously implemented by our research team, for characterization of the fiber distribution and mass density of two paper samples with different characteristics. In the experiment that has been carried out in the current work, both paper samples were laser scanned by the system on a total of 16 times (4 times per day in 4 different days). The data acquired and registered during the experimental work, associated to both tested samples, were then processed and the obtained results showed that the optical system is precise.

Published
2014

28. Lateral light propagation and angular variation of the reflectance of paper

Author

Ludovic Gustafsson Coppel

Subjects
Optics, Materials science, business.industry, Scattering, Radiance, Radiative transfer, Reflection (physics), Phase (waves), Bidirectional reflectance distribution function, business, Absorption (electromagnetic radiation), Light scattering
Abstract

The appearance of translucent materials is strongly affected by bulk (or sub surface) scattering. For paper and carton board, lateral light propagation and angle-resolved reflection have been studied extensively but treated separately. The present work aims at modelling the BSSRDF of turbid media in order to study the angular variation of the reflectance as function of the lateral propagation within the medium. Monte Carlo simulations of the spatial- and angle resolved reflectance of turbid media are performed for different scattering and absorption coefficients, phase functions and surface topographies representative for uncoated paper grades. The angle-resolved radiance factor of turbid media is found to be function of the lateral light propagation within the substrate and both the reflected radiance factor and the fluorescence emission are found to be clearly non- Lambertian, although the latter clearly depends on the light absorption at the excitation wavelength. It is also suggested that the modelling of uncoated paper should not include surface scattering. The findings impact on the appearance of turbid media at different angles and make measurements of the lateral light propagation dependent on the instrument geometry.

Published
2014

29. Investigating the paper dependency of laser printed colors for uncoated papers

Author

S. Gorji Kandi

Subjects
Grammage, Color difference, business.industry, Substrate (printing), Texture (music), Laser, law.invention, Gamut, Optics, law, Computer graphics (images), Digital printing, business, Colorimetry, Mathematics
Abstract

There are several parameters, which influence the characteristics of the final printed colors in digital printing. One of the most important one is the substrate (paper). In the present study, the effect of uncoated papers on the laser printed colors was investigated. For this purpose, three kinds of paper with the same grammage value of 80 and different whiteness and texture were selected. The effect of paper on the printer's reproducibility, light-fastness, color gamut and colorimetric characteristics of the final printed samples were studied for a Canon Laser Printer LBP-5050. It was found out that, the reproducibility of the printer is statistically dependent on the paper's type. The average of color change via exposing light is between 1.3 and 1.8 for different papers. The color difference caused by paper variation illustrates the effect of paper on the final printed colors. The texture properties of the papers were quantified with Edge Frequency technique as an appropriate texture analysis tool. A defined correlation between texture changes and color differences was obtained. Furthermore, the whiteness of the papers clearly affected the final printed colors.

Published
2012

30. Paper surface modification by lasers

Author

Alexander A. Serafetinides, E. Zekou, and Domna G. Kotsifaki

Subjects
Materials science, Inkwell, business.industry, Laser, Q-switching, law.invention, X-ray laser, Co 2 laser, Optics, Optical microscope, law, Diode-pumped solid-state laser, Surface modification, business
Abstract

Lasers can provide a precious tool to conservation process due to their accuracy and the controlled energy they deliver, especially to fragile organic material such as paper. The current study concerns laser modification such as paper cleaning, initially of test papers artificially soiled and then of an original book of the early 20 th Century. The test objects were A4 copier paper, newspaper, and paper Whatman No.1056. During the experiments, ink of a pen, pencil and ink from a stamp was mechanically employed on each paper surface. Laser cleaning was applied using a Q-switched Nd:YAG operating at 532 nm and CO 2 laser at 10.6 μm for various fluences. The experimental results were presented by using optical microscopy. Eventually, laser cleaning of ink was performed to a book of 1934, by choosing the best conditions and parameters from cleaning the test samples, like Nd:YAG laser operating at 532 nm.

Published
2010

31. Method of measure of roughness of paper based in the analysis of the texture of speckle pattern

Author

Josep Pladellorens, Abdiel Osvan Pino, and Josep F. Colom

Subjects
Surface (mathematics), Speckle pattern, Optics, Materials science, business.industry, Surface roughness, Measure (physics), Profilometer, Texture (crystalline), Surface finish, business, Structured-light 3D scanner
Abstract

Roughness of paper surface is an important parameter in paper manufacturing. Surface roughness measurement is one of the central measurement problems in paper industry. Surfaces are often coated and the amount of coating and method of application used depends on the roughness of the base paper [1], [2]. At the moment, air leak methods are standardized and employed in paper industry as roughness rating methods. Air leak rate between measured paper surface and a specified flat land is recorded by using specialized pneumatic devices under laboratory conditions. Such a measurement closely corresponds to the roughness of a surface, the greater the air leak the rougher the surface. Air leak methods are rather easy to apply to paper and give stable results, although they measure roughness indirectly, need laboratory conditions, and thus unsuitable for on-line use. To measure real topography of paper surface, it is scanned with mechanical or optical profilometers. These methods provide accurate information on surface topography, but also demand laboratory conditions. In our work, present a method of measure based in the analysis of the texture of speckle pattern on the surface. The image formed by speckle in the paper surface is considered as a texture, and therefore texture analysis methods are suitable for the characterization of paper surface. The results are contrasted to air leak methods, optical profilometers (confocal microscopy), and fringe projection.

Published
2010

32. Study on broad spectrum fiber spectrometer for paper currency anti-counterfeiting

Author

Junning Liao, Jinshen Li, Tiegen Liu, and Yuanyao Li

Subjects
Wavelength, Broad spectrum, Engineering, Optics, Spectrometer, Infrared, business.industry, Reflection spectrum, Currency, Fiber (mathematics), High resolution, business
Abstract

In order to maintain the normal running of economy in China, anti-counterfeiting detection of paper currency has been an important technology in the coinage company and the bank, but the detection using spectrum for Chinese paper currency anti-counterfeiting has not been applied in China. A real-time detection method, with broad spectrum including ultraviolet and infrared wavelengths, is proposed in this paper, which achieves the purpose of anti-counterfeiting by using anti-fake properties of paper currency's coating surface, through different lights stimulation the full spectrum light irradiation on currency surface, with its reflection spectrum detected by spectrometer. The proposed method has such advantages as high technology, high detection precision and easy to identify, and has been applied to a practical system, which satisfies the real-time requirement.

Published
2009

33. Calibration method for accurate optical measurement of thickness profile for the paper industry

Author

Jussi Graeffe

Subjects
Engineering, Laser triangulation, business.industry, Triangulation (social science), Linearity, Gauge (firearms), Laser, law.invention, Optics, law, Range (statistics), Calibration, Calipers, business
Abstract

Online measurement of paper thickness profile is essential in paper production. For decades paper thickness has been measured online with sensors that are contacting the web on both sides. In 2005 a new optical online paper thickness gauge was introduced which only contacts the web on the other side. The sensor is based on a laser triangulation sensor and a magnetic sensor, and it determines the paper thickness from the difference of the two measurements. For calibration of the two sensors, a robust concept has been developed which utilizes the measured object and takes place in the measuring environment so that the calibration is automatically adjusted to the current measuring circumstances. More importantly, with the presented method the non-linearity of the laser sensor is cancelled enabling the measurement of the thickness profile shape with an accuracy much better than that of the laser sensor. Profile accuracy of 0.5 μm (2σ) has become normal while the measuring range is often several hundreds of microns and the measuring distance to the paper web 1.0-1.5 mm with a laser sensor having linearity of ±2 μm.

Published
2009

34. Quantitative color measurement of pH indicator paper using trichromatic LEDs and TCS230 color sensor

Author

A. L. Chaudhari, T. N. Ghorude, and Arvind D. Shaligram

Subjects
business.industry, Chemistry, Colorimeter, law.invention, Photodiode, Light intensity, Optics, Tristimulus colorimeter, law, RGB color model, Optoelectronics, Chromaticity, Colorimetry, business, Light-emitting diode
Abstract

Quantitative analysis of pH indicator paper color is needed in the various fields. An indigenously developed Tristimulus colorimeter is used in this work for pH Indicator paper color measurement. The colorimeter uses Trichromatic RGB LEDs and a programmable color light to frequency converter (TCS230), combining configurable silicon photodiodes and a current to frequency converter on a single monolithic CMOS integrated circuit. The output is a square wave (50% duty cycle) with frequency directly proportional to light intensity. Digital input and digital output allow directly to a microcontroller. The light to frequency converter reads an 8*8 array of photodiodes. Sixteen photodiodes have red filters, 16 photodiodes have green filters, 16 photodiodes have blue filters, and 16 photodiodes are clear with no filters. All 16 photodiodes of the same colors are connected in parallel and type of photodiode the device uses during operation is pin selectable. Solutions having different standard pH were prepared and indicator paper was dipped in solution, it shows change in color. Using the developed RGB colorimeter chromaticity coordinates were measured and compared with the chromaticity coordinates measured using Ocean Optics HR-4000 high resolution spectrophotometer.

Published
2008

35. Fabrication and characterization of piezo-paper made with cellulose

Author

Heung Soo Kim, Jung-Hwan Kim, Sungryul Yun, Gyu Young Yun, and Jaehwan Kim

Subjects
Materials science, Fabrication, Scanning electron microscope, business.industry, Bending, Piezoelectricity, Characterization (materials science), Cellulose fiber, chemistry.chemical_compound, Optics, chemistry, Cellulose, Composite material, Actuator, business
Abstract

Piezoelectricity is one of major actuatin g mechanisms of a cellulose-based El ectro-Active paper (EAPap). Wet drawn stretching method was introduced in the fabrication process of cellulose film to increase piezoelectricity of EAPap. The characteristics of wet drawn cellulose were studied by scan ning electron microscope (SEM ), X-ray diffractogram (XRD) and pull test. The performance of EAPap was evaluated by measuring bending displacement and piezoelectric charge constant. The performance of EAPap was se nsitive to the fabrication process and material orientation of cellulose film. Aligning cellulose fibers in the fabrication process was a cri tical parameter to improve mechanical and electromechanical properties of EAPap. The experimental results provided that wet drawn stretching is an effective fabrication method to improve mechanical stiffness an d piezoelectricity of EAPap. Keywords : Cellulose, Electro-Active Paper, EAPap, Biomimetic Actuator, Piezoelectricity, Wet drawn stretching, Alignment

Published
2008

36. Optimizing the use of laser alignment thermal sensitive paper for a 1.54 micron Er-glass laser

Author

Kenneth J. Walter, Thomas E. Eurell, and Thomas E. Johnson

Subjects
Materials science, Thermal sensitive, Spots, business.industry, Minimum distance, Laser, Er:Glass laser, Beam parameter product, law.invention, Optics, law, Laser beam quality, business, Beam (structure)
Abstract

Laser alignment thermal sensitive paper can be used for laser applications such as spot size measurements, beam characteristics, and determining beam mode. Thermal sensitive paper interactions with a 1.54 micron, 35 ns, 3.75 J, Er-Glass laser produced spots that had three concentric zones of response. These spots interact with each other if a minimum distance between exposures is not maintained. The distance needed between spots is directly related to the energy density incident upon the paper. Although there was no lot designation for the box of thermal sensitive papers used in this research, we were able to determine that the response of different papers in the same box could vary under constant laser exposure parameters. Therefore, investigators need to be cautious when extrapolating experimental data from exposures using this type of laser alignment paper.

Published
2008

37. Optical object detection in paper improved by refractive index matching and mechanical treatment

Author

Tapio Fabritius, Juha Saarela, Risto Myllylä, and S M Heikkinen

Subjects
Grammage, Microscope, Materials science, medicine.diagnostic_test, business.industry, Object detection, law.invention, Optics, Optical coherence tomography, law, visual_art, Newsprint, medicine, visual_art.visual_art_medium, Clearing Agent, Transparency (data compression), business, Refractive index
Abstract

Two different paper grades were tested with a clearing agent to measure how much mechanical smoothening can improve transparency inside paper. The paper grades were newsprint and supercalendered paper. The paper furnishes of both papers were alike, but the supercalendered paper was mechanically smoothened. Anise oil was used as the clearing agent, but similar measurements were also done with air and water. Black lines 8.5 μm to 281.1 μm wide were placed behind layers of cleared paper and transparency was measured with a microscope. When anise oil was the clearing agent, supercalendering improved transparent paper grammage from 139 g/m 2 to 164 g/m 2 . With water the improvement was from 40 g/m 2 to 51 g/m 2 . With air the improvement was not determinable. As a conclusion, it is recommended that paper is smoothened if it needs to be studied optically. Optical coherence tomography, for example, would benefit from this treatment.

Published
2007

38. Paper whiteness and its effect on the reproduction of colors

Author

Ole Norberg

Subjects
business.industry, Color image, media_common.quotation_subject, Standard illuminant, Color rendering index, Optics, Gamut, Colored, Chromatic adaptation, Human visual system model, Contrast (vision), Computer vision, Artificial intelligence, business, media_common
Abstract

The whiteness level of a printing paper is considered as an important quality measure. High paper whiteness improves the contrast to printed areas providing a more distinct appearance of printed text and colors and increases the number of reproducible colors. Its influence on perceived color rendering quality is however not completely explained. The intuitive interpretation of paper whiteness is a material with high light reflection for all wavelengths in the visual part of the color spectrum. However, a slightly bluish shade is perceived as being whiter than a neutral white. Accordingly, papers with high whiteness values incline toward bluish-white. In paper production, a high whiteness level is achieved by the use of highly bleached pulp together with high light scattering filler pigment. To further increase whiteness levels expensive additives such as Fluorescent Whitening Agents (FWA) and shading dyes are needed. During the last years, the CIE whiteness level of some commercial available office paper has exceeded 170 CIE units, a level that can only be reached by the addition of significant amounts of FWA. Although paper whiteness is considered as an important paper quality criterion, its influence on printed color images is complicated. The dynamic mechanisms of the human visual system strive to optimize the visual response to each particular viewing condition. One of these mechanisms is chromatic adaptation, where colored objects get the same appearance under different light sources, i.e. a white paper appears white under tungsten, fluorescent and day light. In the process of judging printed color images, paper whiteness will be part of the chromatic adaptation. This implies that variations in paper whiteness would be discounted by the human visual system. On the other hand, high paper whiteness improves the contrast as well as the color gamut, both important parameters for the perceived color reproduction quality. In order to quantify the influence of paper whiteness pilot papers with different amount of FWA but in all other respects similar were produced on a small scale experimental paper machine. The fact that only the FWA content changes reduces the influences of other properties separated from the paper whiteness in the evaluation process. A set of images, all having characteristics with the potential to reveal the influence of the varied whiteness level on color reproduction quality, were printed on the pilot papers in two different printers. Prior to printing the test images in the experiment, ICC-profiles were calculated for all the used printer-substrate combinations. A visual assessment study of the printed samples was carried out in order to relate the influence of the paper whiteness level to perceived color reproduction quality. The results show an improved color rendering quality with increased CIE whiteness value up to a certain level. Any further increase in paper whiteness does not contribute to an improved color reproduction quality. Furthermore, the fact that some printing inks are UV blocking while others are not will introduce a non uniform color shift in the printed image when the FWA activation changes. This non uniform color shift has been quantified both for variations in illuminant as well as variations of FWA content in the paper.

Published
2007

39. Paper roughness and the color gamut of color laser images

Author

Susan Farnand, Jim Chauvin, Tom Oswald, J. S. Arney, and Michelle Spampata

Subjects
Optics, Materials science, Gamut, law, business.industry, Power consumption, Surface finish, Laser, business, law.invention
Abstract

Common experience indicates the quality of a printed image depends on the choice of the paper used in the printing process. In the current report, we have used a recently developed device called a micro-goniophotometer to examine toner on a variety of substrates fused to varying degrees. The results indicate that the relationship between the printed color gamut and the topography of the substrate paper is a simple one for a color electrophotographic process. If the toner is fused completely to an equilibrium state with the substrate paper, then the toner conforms to the overall topographic features of the substrate. For rougher papers, the steeper topographic features are smoothed out by the toner. The maximum achievable color gamut is limited by the topographic smoothness of the resulting fused surface. Of course, achieving a fully fused surface at a competitive printing rate with a minimum of power consumption is not always feasible. However, the only significant factor found to limit the maximum state of fusing and the ultimate achievable color gamut is the smoothness of the paper.

Published
2007

40. Dynamic optical coherence tomography for paper wetting measurements

Author

Tapio Fabritius and Risto Myllylä

Subjects
Grammage, Materials science, medicine.diagnostic_test, Scattering, business.industry, Sorption, Wetted area, Composite image filter, Optics, Optical coherence tomography, medicine, Wetting, Porosity, business
Abstract

This paper introduces a novel optical method to measure liquid penetration into porous, highly scattering media. Testing was conducted by measuring the sorption of glycerol into a paper sample consisting of cellulose fibre tissue with a grammage of 115 g m -2 . During wetting, optical coherence tomography (OCT) was used to detect dynamical changes in the sample's scattering properties. Distinguishing the border between the dry and the wetted area on the basis of separate A-scans was a challenging task. However, wetting behaviour could be investigated in the depth direction simply by constructing a composite image of the separate scans. In addition, the method also allowed the imaging of swelling behaviour in paper.

Published
2006

41. Laser optoacoustic measurements of paper porosity

Author

Alexander A. Karabutov, Natalia B. Podymova, and Ivan Pelivanov

Subjects
Transformer oil, business.industry, Chemistry, Laser, law.invention, Optics, law, Temporal resolution, Ultrasonic sensor, Phase velocity, business, Transformer, Spectroscopy, Porosity
Abstract

The propagation of broadband ultrasonic pulses in combined media that consist of printing paper of different porosity saturated with different liquids is studied. The experiments are performed with three types of paper, namely, Zoom Ultra (Stora Enso, Finland) with surface densities of 80 and 100 g/m2 and Data Copy (Mo Do, Sweden) with a surface density of 160 g/cm2, and with two types of saturating liquids: ethanol and transformer oil. To excite ultrasonic pulses and to detect them with a high time resolution, the laser optoacoustic spectroscopy method is used. For each type of liquid-saturated paper, the phase velocity of ultrasound is measured in the frequency range of 5–35 MHz. The absence of any noticeable frequency dispersion of the phase velocity is revealed. The possibility of measuring the porosity of printing paper on the basis of the theoretical model of a two-phase medium with the use of the corresponding experimental data is demonstrated.

Published
2006

42. Surface structure analysis of paper based on confocal laser scanning microscopy (CLSM) imaging: aiming at the prediction of printability for wood-containing paper

Author

Per Gunnar Auran

Subjects
Offset (computer science), Microscope, Materials science, business.industry, 3D modeling, law.invention, Optics, law, visual_art, Microscopy, Void (composites), Newsprint, Confocal laser scanning microscopy, visual_art.visual_art_medium, business, Porosity
Abstract

The printability of newsprint and liner is addressed through the analysis of CLSM images. The surface topography and porous structure of the paper are physical properties heavily correlated with the paper's formation, and, hence, important factors affecting the printability of the paper. The surface 3D structure of the paper is measured by using topographic CLSM images from which the pore size distribution can be estimated using image analysis. The experimental results have both been compared to a theoretical model of the cross-sectional area of void volumes in paper and also with paper physics measurements, specially related to the offset print-through problem. Good correlations have been found, and results so far are promising, but still there is a need for improved analysis of the 3D structure of paper, both on the measurement and modeling side.

Published
1998

43. Laser radar and laser photoacoustics in paper pulp measurements

Author

Zuomin Zhao, Matti Törmänen, and Risto Myllylä

Subjects
Photoacoustic effect, Materials science, business.industry, Attenuation, Acoustic wave, Laser, behavioral disciplines and activities, law.invention, Time of flight, Lidar, Transducer, Optics, Computer Science::Sound, law, otorhinolaryngologic diseases, sense organs, business, Photoacoustic spectroscopy, psychological phenomena and processes
Abstract

The size distribution and total amount of the particles in paper pulp is vital information for the paper manufacturer in optimising process control and maintaining a high product quality. There is a further need for improving the on-line measurement methods to measure these parameters. It is known that fibre and fines fractions in the pulp have different optical and acoustic properties. In this study, we simultaneously use laser radar and laser generation of acoustic waves to further study optical and acoustic parameters, such as optical time delay, acoustic speed and attenuation. A near infrared pulse laser is used to illuminate the pulp suspensions and the time-of-flight of scattering photons is recorded; and at the same time, a high energy pulsed laser is applied to produce an acoustic wave. The acoustic wave propagates through the pulp suspensions and an acoustic transducer is used to detect the signals from which the attenuation and acoustic speed are determined. The results show that these combined optical techniques can potentially determine the content of fibres and fine particles simultaneously.

Published
2005

44. The 100th birthday of the conic constant and Schwarzschild's revolutionary papers in optics

Author

Andrew Rakich

Subjects
Physics, Geometrical optics, business.industry, Eikonal equation, Reflecting telescope, Active optics, Conic constant, law.invention, Telescope, Theoretical physics, Optics, law, business, Schwarzschild radius, Optical aberration
Abstract

In 1905 Karl Schwarzschild published three papers on optics, two of which revolutionized the field of reflecting telescope optics. In his first paper he developed a full theory of the aberrations of reflecting telescopes, generalizing the Eikonal of Bruns to take into account systems with an infinite long conjugate. In the second paper Schwarzschild applied his formulation to a masterful analysis of 2 mirror anastigmatic systems, along the way discovering the so called Ritchey-Chretien aplanat, 18 years Ritchey and Chretien's announcement. Numerous other innovations are given in what must be seen as being among the most important papers on the aberrations of optical systems ever written.

Published
2005

45. Mask modeling in the low k 1 and ultrahigh NA regime: phase and polarization effects (Invited Paper)

Author

Andreas Erdmann

Subjects
Diffraction, Electromagnetic field, Engineering, Light diffraction, business.industry, Physics::Optics, Polarization (waves), law.invention, Optics, law, Algorithmics, Process window, Photolithography, business, Lithography
Abstract

This paper reviews state of the art mask modeling for optical lithography. Rigorous electromagnetic field (EMF) simulation of light diffraction from optical masks is compared to the traditional assumption of an infinitely thin mask, the so called Kirchhoff approach. Rigorous EMF simulation will be employed to analyze mask polarization phenomena which become important in the ultrahigh NA regime. Several important lithographic phenomena, which can be explained only with rigorous EMF simulation, are discussed. This includes the printability of small assist features, intensity imbalancing for alternating PSM, and process window deformations. The paper concludes with a discussion on material issues and algorithmic extensions which will be necessary for an accurate modeling of future mask technology.

Published
2005

46. New approach to the analysis of ultrashort pulse diffraction (Invited Paper)

Author

Mikhail K. Lebedev, A. V. Kytmanov, M. V. Frolenkova, and Yurii A. Tolmachev

Subjects
Diffraction, business.industry, Wave propagation, Linear system, Wave equation, Ray, symbols.namesake, Fourier transform, Optics, symbols, Monochrome, business, Ultrashort pulse, Mathematics
Abstract

Progress in optics led to the point when scientists and engineers operate the pulses of the electromagnetic energy containing only a few (in fact, sometime less than one, see examples in [1]) oscillations of the field instead of monochrome or quasimonochrome waves. Even omitting physical problems of interaction between field and matter, including those associated with essential nonlinearity due to extremely high amplitudes of the field, one encounters a lot of problems caused by extraordinary large homogeneous spectral bandwidth of ultrashort pulses. Linear optics of ultrashort pulses essentially differs from that of monochrome waves; hence, the development of appropriate methods for description of such pulses propagation through an optical system is necessary. It is common to our perception to deal with monochrome wave transformation, not wide-spectrum signal one, because in the traditional optics there is the set of solutions for the typical problems. The purpose of this presentation is to show that the equivalent set may be developed also for the optics of ultrashort pulses. As a result, the qualitative study of the diffraction and interference ofultrashort pulses becomes as simple as the ray optics. There are different methods of the analysis of diffraction and interference phenomena. The first possible approach is based on Huygens representation of the diffraction phenomena. Traditional procedure involves Fourier transform of the initial pulse process to get a set of monochrome waves. Then one analyzes the diffraction of each of those waves and finally the resulting monochrome diffraction fields sum back to form a scattered pulse. Rather widely used [2, 3, 4], this method implies reconsideration of developed solutions of classical diffraction problems to take into account some second-order components. Thrown away in the conventional theory as contributing only small phase correction for rather law frequencies, they become significant for high frequency components of the field. Another method suggests decomposition of the initial pulse into a set of wavelets [5]. Being convenient to those researchers who operate with an equal ease with this class of functions and with monochrome waves, this method does not possess the clearness of first one. Moreover, some of them does not meet the causality principle. At the same time, there is another group of methods based on one of principal results of general theory of diffraction [6]. Their formulation is closer to Young interpretation of diffraction and considers the interaction of waves scattered by the edge of aperture and through-passing one [7]. In acoustics and electro-engineering, the method based on the formalism of Green function for the wave equation [8, 9] is used. The fact that this method performs well for linear system analysis in electronics supported us in our attempt. In optics, it was successfully used by J. Connes [10] and L. Mertz [1 1], for example. Both of them studied the propagation of pulses through some most simple devices. Moreover, their analysis was based only on intuitive concepts that led to some mistakes, as it becomes clear today. Nevertheless, the general conclusion on the possibility of using the Dirac transform for the description of the waveform conversion in the process of propagation through the linear optical system became obvious. The technique based on 8-wave ideas proposed in our previous publications [12, 13, 14]. Those papers demonstrated the simplicity of interpretation of spatial and temporal form of the diffracted wave transformation using the pulse approach. The present paper extends this concept and demonstrates complete agreement of its results with classical theory for monochrome waves; the method opens a way to the development of specific software for the analysis of propagation of ultrashort pulses. All methods mentioned above give identical results. To our knowledge, the S -wave approach was not used directly for the solution of diffraction problems in the Kirchhoff approximation. However, it seems to be handy for the description of short pulses propagation. Moreover, it was shown in [12, 14] that the method can clarify some features of diffracted wave that can give a key to a fine experiment realization

Published
2005

47. A 25-GB paper disc based on the blu-ray structure

Author

Kinoshita Toshiro, Masayuki Taniguchi, Takeshi Yamasaki, and Tomomi Yukumoto

Subjects
Core (optical fiber), Multiple layer, Materials science, Optics, business.industry, Blu-ray disc, Optical memory, business, Optical disc, Reflectivity, Jitter
Abstract

We developed a 25GB ROM disc whose substrate is made of paper. Structure of the disc is based on the Blu-ray Disc format. We improved mechanical characteristics of a paper core by introducing a symmetrical multi-layer structure. The signals in the paper disc were reproduced successfully and the jitter values were less than 6%.

Published
2004

48. Optical coherence tomography device for paper characterization

Author

Erkki Alarousu, Risto Myllylä, Jukka Hast, and Leszek Krehut

Subjects
Materials science, medicine.diagnostic_test, business.industry, Optical engineering, Michelson interferometer, Superluminescent diode, Signal, Optical heterodyne detection, law.invention, Optics, Optical coherence tomography, law, medicine, Demodulation, Profilometer, business
Abstract

In this study, we propose to apply the method optical coherence tomography (OCT) for paper characterization. A PC-controlled experimental measurement system for OCT-imaging of paper is described in detail. A superluminescent diode is used as a light source in a Michelson interferometer. A rapid scanning optical delay line is using a piezo-transducer to modulate the measurement signal for optical heterodyne detection. Amplification, filtering and demodulation are performed by the unit specially designed for this purpose. Experimental measurements include the OCT slice imaging of a paper sample and comparison with a SEM-image. Also some results in surface profilometry are presented briefly. Discussion part gives some ideas of further research that will be carried out in the future.© (2004) COPYRIGHT SPIE--The International Society for Optical Engineering. Downloading of the abstract is permitted for personal use only.

Published
2004

49. Full-field high-resolving optical coherence tomography system for evaluating paper materials

Author

N. Margariants, Risto Myllylä, Tuukka Prykäri, Alexey Karpets, N. Kalinina, Elena Vorobeva, Igor P. Gurov, and Erkki Alarousu

Subjects
Data processing, Engineering, genetic structures, medicine.diagnostic_test, business.industry, Resolution (electron density), ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Astrophysics::Instrumentation and Methods for Astrophysics, Magnification, Video camera, Signal, eye diseases, law.invention, Interferometry, Data acquisition, Optics, Optical coherence tomography, law, medicine, Computer vision, sense organs, Artificial intelligence, business
Abstract

High-resolving full-field OCT method is considered that provides increased resolution and interferometric data acquisition speed due to high optical magnification and electronic lateral scan provided by video camera. OCT data processing algorithm based on signal squaring with subsequent low-pass filtering is considered. Experimental results obtained when evaluating samples of paper material are presented and discussed.

Published
2007

50. Color reproduction on inkjet printers and paper colorimetric properties

Author

Jesús Fernández-Reche, Antonio Garcia-Beltran, José A. Díaz, and Joan Uroz

Subjects
Opacity, business.industry, Dynamic range, Computer science, Color reproduction, Standard illuminant, Gloss (optics), Color rendering index, Optics, Gamut, Computer graphics (images), Color chart, business, Colorimetry, Inkjet printing
Abstract

The goal of this work is to study the relationship between the colorimetric characteristics that identify a kind of paper and those that allow us to evaluate its color reproduction capabilities on inkjet printers. A set of 29 different commercial papers from several companies has been tested. The category of those papers ranged from photo quality to prepress proof and ordinary office papers, being their finishing matte, semi-matte or glossy. For each sample, we have measured their reflectance, intrinsic reflectance, opacity, CIE whiteness index and tint. All these measurements followed the procedures established in the international standards about paper and board. Then, we have printed on three different sheet of each paper the color chart proposed in the international standard for color printer characterization ANSI IT8/7.3. When calculated the CIELAB coordinates using the D50 standard illuminant, we studied the dynamic range, color gamut and the rendering linearity. The results show that the colorimetric properties and reproduction capabilities of the 29 commercial papers let us cluster them in accordance with their behavior. However, we found no systematic correlation between color reproduction and specific colorimetric properties of the types of paper: we should search for other physical (not just colorimetric) properties (for instance, gloss or ink absorption capacity).

Published
2003