Your search keyword '"Sumio Hosaka"' showing total 252 results

1. Formation of 7-nm-wide Line&Spaces in Half Pitch by 3 Dimensional Self-assembly of Nano-dots Using Sphere Type PS-PDMS

Author

Sumio Hosaka, Hui Zhang, You Yin, and Hayato Sone

Abstract

We have formed nanometer-wide lines & spaces by graphoepitaxy of sphere type polystyrene-poly dimethyl siloxane (PS-PDMS), with a molecular weight (MW) of 14.6 kg/mol., along electron-beam (EB)-drawn resist guide lines. We have 3-dimensionally ordered the sphere type PS-PDMS by controlling a thickness of the PS-PDMS along improved guide lines to form the line and space pattern. We obtained the thickness dependence on the pattern change such as nano-dot arrays and nano-line & space patterns. When the thickness increased to about +4 nm from the upper thickness for formation of the dot arrays, the line & space patterns have been formed with about 7 nm in line width and 14 nm in pitch.

Published

2021

2. Scanning Near-Field Raman Spectroscopic Microscope

Author

Sumio Hosaka

Subjects

Conventional transmission electron microscope, Materials science, Microscope, business.industry, Physics::Optics, Near and far field, law.invention, symbols.namesake, Multiphoton fluorescence microscope, Optics, law, symbols, business, Raman spectroscopy

Abstract

Recent technologies of tip-enhanced Raman spectroscopy (TERS) and scanning near-field optical microscopy (SNOM) with Raman spectroscopy are reviewed. In TERS technology, it has been developed based on surface-enhanced Raman spectroscopy (SERS). The some TERS are reviewed as follows: 1. Bottom illumination mode TERS has been described, and it has demonstrated fine spatial resolution and gigantic enhancement of Raman scattering signal using single wall carbon nano tube (SWNT). 2. Side- and modified top-illumination mode TERS have been described, and they have demonstrated enhancement of Raman scattering signal and resolution of subwavelength. 3. There are, however, some technical issues such as metal contamination, stress measurement of Si device, etc. This means that it is difficult to apply to an evaluation of semiconductor devices, etc. In SNOM technologies, illumination-collection mode SNOM has been described with regard of aperture type SNOM probe and aperture-less pyramidal SNOM probe. 4. Using the aperture type SNOM probe, it is difficult to obtain fine spatial resolution because the aperture makes only near-field optical probe incompletely. 5. M. Yoshikawa et al. demonstrated spatial resolution of about 200 nm in peak-frequency shift image with Raman Si peak of VLSI standard sample using illumination-collection mode with the aperture type SNOM probe. 6. S. Hosaka et al. have proposed the aperture-less pyramidal probe in illuminationcollection mode SNOM to improve near-field optical probe and to protect from the metal contamination to the device surface. The SNOM and Raman spectroscopy was combined with UV laser. The prototyped microscopy demonstrated following possibilities. a. By calculating near-field light propagations in the aperture-less pyramidal probe by FDTD method, strong near-field light propagation from top of the aperture-less

Published

2021

3. Realization of a Power-Efficient Transmitter Based on Integrated Artificial Neural Network

Author

Deyu Kong, Qi Yu, Sumio Hosaka, Yang Liu, S. G. Hu, Canlong Xiong, Tupei Chen, Wang Junjie, Yuancong Wu, You Yin, Zhengyu Shi, Zhen Liu, and School of Electrical and Electronic Engineering

Subjects

General Computer Science, Computer science, 02 engineering and technology, Radio transmitters, law.invention, Base station, frequency control, law, Radiofrequency Amplifiers, 0202 electrical engineering, electronic engineering, information engineering, Wireless, Radio Transmitters, General Materials Science, Radar, radiofrequency amplifiers, energy efficiency, business.industry, Amplifier, 020208 electrical & electronic engineering, Transmitter, General Engineering, Electrical engineering, 020206 networking & telecommunications, power control, Power (physics), Mobile phone, classification algorithms, Engineering::Electrical and electronic engineering [DRNTU], lcsh:Electrical engineering. Electronics. Nuclear engineering, business, lcsh:TK1-9971, Energy (signal processing)

Abstract

In wireless devices, a transmitter normally consumes most of power due to its power amplifier (PA), especially in the applications such as radar, base station, and mobile phone. It is highly desirable to design a transmitter that can emit signals smartly, i.e., the power emission is exactly based on the emitting distance required and the target. Such a design can save huge amount of power as there are almost countless wireless devices in use currently. In this paper, an intelligent radio-frequency transmitter integrated with artificial neural network (ANN) is implemented. The intelligent transmitter consists of an ANN module, a frequency generation module, and a switch-mode PA. The integrated three-layered fully connected ANN can be offline trained to smartly classify input data according to the required power and assign the transmission channel. Furthermore, with the integrated ANN, the average power consumption of the PA is reduced to 34.3 mW, which is 46.5 % lower than PA without the ANN. With the intelligent transmitter, wireless devices can save a large amount of energy in their operations. Published version

Published

2018

4. γ-Ray Radiation Effects on an HfO2-Based Resistive Memory Device

Author

Qi Yu, Qi Guo, Yang Liu, L. J. Deng, Zhang Xingyao, Yu-dong Li, Tupei Chen, You Yin, Sumio Hosaka, S. G. Hu, and School of Electrical and Electronic Engineering

Subjects

010302 applied physics, Materials science, business.industry, Electrical engineering, Gamma ray, γ Ray, 02 engineering and technology, Radiation, 021001 nanoscience & nanotechnology, 01 natural sciences, Computer Science Applications, Resistive random-access memory, Ionizing radiation, Absorbed dose, 0103 physical sciences, Electrode, Electrical and electronic engineering [Engineering], Optoelectronics, Irradiation, Electrical and Electronic Engineering, Hafnium Oxide, 0210 nano-technology, business, Voltage

Abstract

In this paper, electrical characteristics of an HfO2-based resistive switching memory device are investigated before and after γ-ray radiation with various total ionizing doses (TIDs). The device can still function properly even if irradiated with a TID of 20 Mrad(Si). The small changes of resistance states and set/reset voltages induced by γ-ray radiation can hardly influence the proper function of the device. The γ-ray radiation does not significantly degrade both retention and endurance characteristics even after a high-TID exposure. The radiation effects on the resistive switching memory device show little dependence on the cell area. The results suggest that the HfO2-based resistive switching memory device has good γ-ray radiation-resistant capability.

Published

2018

5. Three-Dimensional Simulation of Proposed Ring-Confined-Chalcogenide Phase-Change Memory for Reducing Reset Operation Current

Author

Sumio Hosaka and You Yin

Subjects

Materials science, business.industry, Chalcogenide, Mechanical Engineering, Ring (chemistry), Finite element method, Phase-change memory, Three dimensional simulation, chemistry.chemical_compound, chemistry, Mechanics of Materials, Electronic engineering, Optoelectronics, General Materials Science, Current (fluid), business, Reset (computing)

Abstract

In this paper, we proposed a phase-change memory (PCM) structure which has a ring confined chalcogenide (RCC) for reducing reset operation current. The temperature distributions of normal bottom contact (NBC), confined chalcogenide (CC) and proposed RCC PCMs were simulated by 3 dimensional finite element method. It was very clear that a much higher temperature can be obtained for RCC than NBC cell at a certain programming current. The programming characteristics also exhibited that the operation current of RCC cell can be as low as about 45% of NBC cell while that of CC cell was about 82% of CC cell.

Published

2016

6. The dependence of crystallization on temperature in the nanosecond timescale for GeTe-based fast phase-change resistor

Author

Hui Zhang, Yu Long Zhang, You Yin, and Sumio Hosaka

Subjects

010302 applied physics, Materials science, General Physics and Astronomy, 02 engineering and technology, Activation energy, Nanosecond, 021001 nanoscience & nanotechnology, 01 natural sciences, Molecular physics, Amorphous solid, law.invention, Crystallography, Phase change, law, 0103 physical sciences, Physical and Theoretical Chemistry, Resistor, Crystallization, 0210 nano-technology, Voltage

Abstract

We propose an approach to study the dependence of crystallization on temperature of GeTe-based phase change resistor (PCR) for staircase-shaped voltage pulses. We tune the resistance between the amorphous and crystalline states via varying the width of second subpulse. Then, the crystallized fractions are calculated as a function of the second subpulse widths. Furthermore, the temperature distributions under variable second subpulses are analyzed. At last, the pulse-dependent-recrystallization-temperatures are estimated using experimental and simulation results. We demonstrate that the crystallization of the GeTe-PCR is faster than that of Ge 2 Sb 2 Te 5 -PCR due to the high pulse-dependent-recrystallization-temperature and low activation energy.

Published

2016

7. Ultra-multiple and reproducible resistance levels based on intrinsic crystallization properties of Ge1Sb4Te7 film

Author

Shota Iwashita, Yang Liu, Jingze Li, You Yin, Qi Yu, Tao Wang, and Sumio Hosaka

Subjects

010302 applied physics, Reproducibility, Materials science, Annealing (metallurgy), business.industry, General Physics and Astronomy, Nanotechnology, 02 engineering and technology, Surfaces and Interfaces, General Chemistry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 01 natural sciences, Surfaces, Coatings and Films, law.invention, Phase-change memory, Non-volatile memory, Electrical resistivity and conductivity, law, 0103 physical sciences, Optoelectronics, Crystallization, 0210 nano-technology, business

Abstract

Ge 1 Sb 4 Te 7 (GST147) was adopted as the storage media for multiple resistance levels. It was exhibited that the resistivity of GST147 gradually dropped by about 3–4 orders of magnitude due to crystallization with the annealing temperature, which is critical to realize multiple resistance levels. The ultra-multiple 27 resistance levels in TiSi 3 /GST147 lateral phase-change memory device were demonstrated simply by controlling the maximum sweeping currents for programming the device resistance. Furthermore, the reproducibility of the six resistance levels was demonstrated and these levels were distinguishable from each other. This study indicates that GST147 is a media suitable for stable ultra-multiple level storage, enabling low-cost ultrahigh-density nonvolatile memory.

Published

2016

8. Handwritten-Digit Recognition by Hybrid Convolutional Neural Network based on HfO2 Memristive Spiking-Neuron

Author

Sumio Hosaka, S. G. Hu, You Yin, Tupei Chen, Zhen Liu, X. T. Zhan, J. J. Wang, Qi Yu, Yong Liu, and School of Electrical and Electronic Engineering

Subjects

Handwriting, Computer science, Models, Neurological, Neural Network, lcsh:Medicine, 02 engineering and technology, Memristor, 01 natural sciences, Convolutional neural network, Article, law.invention, law, 0103 physical sciences, medicine, Handwritten-digit Recognition, Humans, lcsh:Science, 010302 applied physics, Neurons, Multidisciplinary, Artificial neural network, business.industry, lcsh:R, Brain, 021001 nanoscience & nanotechnology, medicine.anatomical_structure, CMOS, Semiconductors, Cerebral cortex, Engineering::Electrical and electronic engineering [DRNTU], lcsh:Q, Neuron, Neural Networks, Computer, 0210 nano-technology, business, Computer hardware

Abstract

Although there is a huge progress in complementary-metal-oxide-semiconductor (CMOS) technology, construction of an artificial neural network using CMOS technology to realize the functionality comparable with that of human cerebral cortex containing 1010–1011 neurons is still of great challenge. Recently, phase change memristor neuron has been proposed to realize a human-brain level neural network operating at a high speed while consuming a small amount of power and having a high integration density. Although memristor neuron can be scaled down to nanometer, integration of 1010–1011 neurons still faces many problems in circuit complexity, chip area, power consumption, etc. In this work, we propose a CMOS compatible HfO2 memristor neuron that can be well integrated with silicon circuits. A hybrid Convolutional Neural Network (CNN) based on the HfO2 memristor neuron is proposed and constructed. In the hybrid CNN, one memristive neuron can behave as multiple physical neurons based on the Time Division Multiplexing Access (TDMA) technique. Handwritten digit recognition is demonstrated in the hybrid CNN with a memristive neuron acting as 784 physical neurons. This work paves the way towards substantially shrinking the amount of neurons required in hardware and realization of more complex or even human cerebral cortex level memristive neural networks.

Published

2018

9. Predicting house price with a memristor-based artificial neural network

Author

Y. Liu, X. T. Zhan, Sumio Hosaka, S. G. Hu, Qu Luo, Tupei Chen, You Yin, J. J. Wang, Qi Yu, Zhen Liu, and School of Electrical and Electronic Engineering

Subjects

General Computer Science, Computer science, neural network, Neural Network, 02 engineering and technology, Memristor, Inhibitory postsynaptic potential, law.invention, Synapse, Excitatory synapse, Computer Science::Emerging Technologies, memristive synapse, law, House price predicting, 0202 electrical engineering, electronic engineering, information engineering, General Materials Science, memristor, Artificial neural network, Quantitative Biology::Neurons and Cognition, business.industry, 020208 electrical & electronic engineering, General Engineering, 021001 nanoscience & nanotechnology, House price, Artificial intelligence, lcsh:Electrical engineering. Electronics. Nuclear engineering, House Price Predicting, 0210 nano-technology, business, lcsh:TK1-9971

Abstract

Synaptic memristor has attracted much attention for its potential applications in artificial neural networks (ANNs). However useful applications in real life with such memristor-based networks have seldom been reported. In this paper, an ANN based on memristors is designed to learn a multi-variable regression model with a back-propagation algorithm. A weight unit circuit based on memristor, which can be programed as an excitatory synapse or inhibitory synapse, is introduced. The weight of the electronic synapse is determined by the conductance of the memristor, and the current of the synapse follows the charge-dependent relationship. The ANN has the ability to learn from labeled samples and make predictions after online training. As an example, the ANN was used to learn a regression model of the house prices of several Boston towns in the USA and the predicted results are found to be close to the target data. Published version

Published

2018

10. Oxygen-doped Sb2Te3 for high-performance phase-change memory

Author

Sumio Hosaka, Shota Morioka, Ryoya Satoh, Shun Kozaki, and You Yin

Subjects

Materials science, Annealing (metallurgy), Doping, Analytical chemistry, General Physics and Astronomy, Crystal growth, Surfaces and Interfaces, General Chemistry, Condensed Matter Physics, Surfaces, Coatings and Films, Crystal, Phase-change memory, Electrical resistivity and conductivity, Interstitial defect, Electrical measurements

Abstract

In this study, we intensively investigated oxygen doped Sb2Te3 (ST–O) for high-performance phase-change memory (PCM) based on X-ray diffraction analysis and electrical measurements. The crystal became more ordered with increasing annealing temperature and the lattice deformed with the interstitial sites occupied by doped O atoms. It also exhibited that mean crystal size decreased from 8 nm to 3 nm and thus crystal growth was significantly suppressed by fine oxides due to O-doping. The resistivity of crystalline O–ST could be around 3–4 orders of magnitude higher than that of crystalline ST, which enables great reduction in reset current. It was clear that the high resistivity was able to be tuned simply by doping O into the conventional ST phase-change material for improving the performance of PCM.

Published

2015

11. Sb–Te alloy nanostructures produced on a graphite surface by a simple annealing process

Author

Masashi Kuwahara, Maho Abe, Sumio Hosaka, Hideaki Uratsuji, Joe Sakai, Tohru Tsuruoka, Rie Endo, Hayato Sone, Yoichi Uehara, GREMAN (matériaux, microélectronique, acoustique et nanotechnologies) (GREMAN - UMR 7347), Institut National des Sciences Appliquées - Centre Val de Loire (INSA CVL), and Institut National des Sciences Appliquées (INSA)-Institut National des Sciences Appliquées (INSA)-Université de Tours (UT)-Centre National de la Recherche Scientifique (CNRS)

Subjects

Nanostructure, Materials science, Annealing (metallurgy), Scanning electron microscope, Alloy, General Physics and Astronomy, Nanotechnology, Surfaces and Interfaces, General Chemistry, engineering.material, Condensed Matter Physics, Phase change materials, Nanoneedles, [SPI.MAT]Engineering Sciences [physics]/Materials, Surfaces, Coatings and Films, Narrow gap semiconductor, Highly oriented pyrolytic graphite, Chemical engineering, Sputtering, engineering, Nanoparticles, Graphite, Chemical composition, Sb2Te3

Abstract

International audience; We have produced Sb\textendashTe alloy nanostructures from a thin Sb2Te3 layer deposited on a highly oriented pyrolytic graphite substrate using a simple rf-magnetron sputtering and annealing technique. The size, shape, and chemical composition of the structures were investigated by scanning electron microscopy (SEM), atomic force microscopy (AFM), and energy dispersive X-ray spectrometry (EDX), respectively. The shape of the nanostructures was found to depend on the annealing temperature; nanoparticles appear on the substrate by annealing at 200 \smwhtcircleC, while nanoneedles are formed at higher temperatures. Chemical composition analysis has revealed that all the structures were in the composition of Sb:Te = 1:3, Te rich compared to the target composition Sb2Te3, probably due to the higher movability of Te atoms on the substrate compared with Sb. We also tried to observe the production process of nanostructures in situ using SEM. Unfortunately, this was not possible because of evaporation in vacuum, suggesting that the formation of nanostructures is highly sensitive to the ambient pressure.

Published

2015

12. Computational Analysis of Heavy Ion-DNA Interaction Using Molecular Dynamics Method

Author

Akie Nagao, You Yin, and Sumio Hosaka

Subjects

Chemistry, Mechanical Engineering, Dna interaction, Cleavage (embryo), Molecular mechanics, QM/MM, Molecular dynamics, chemistry.chemical_compound, Chemical bond, Mechanics of Materials, Chemical physics, Computational chemistry, General Materials Science, Heavy ion, DNA

Abstract

We studied DNA damages in heavy ion irradiation for its radiotherapy using molecular dynamics (MD) method. We adopted semi-empirical hybrid quantum mechanics/molecular mechanics (QM/MM) method of Amber in order to investigate the cleavage of chemical bond by heavy ion in our simulation. We found the cleavage of chemical bond, although the simulated energy of heavy ion turned out to be slightly higher than the one determined by experiment.

Published

2015

13. Prototype of Atomic Force Microscope with High Resolution Optical Microscope for Observing Magnetic Nanodot Arrays

Author

You Yin, Sumio Hosaka, Ryosuke Takahashi, Tao Jin, and Hui Zhang

Subjects

Scanning Hall probe microscope, Materials science, business.industry, Atomic force microscopy, Mechanical Engineering, Resolution (electron density), High resolution, law.invention, Optics, Optical path, Optical microscope, Mechanics of Materials, law, General Materials Science, Nanodot, Magnetic force microscope, business

Abstract

This paper is dedicated to develop an atomic force microscope (AFM) system cou-pled with a high resolution optical microscope (OM), which serves to observe AFM image from a desired micro-area. The system employs through-the-lens optical path for detecting atomic force based on optical lever. By switching the objective lenses from low to high magni cation, a micro-area for obtaining AFM image can be easily found. AFM images of magnetic nanodotarrays with 300 nm and 150 nm pitches are obtained from two local micro-areas using the system. The results demonstrate the proposed prototype has the su cient function to nd out a micro-area for obtaining AFM image.

Published

2015

14. Observation of Magnetic Nanodot Arrays Using Near-Field Polarization Microscope

Author

Tao Jin, Miftakhul Huda, Sumio Hosaka, Zulfakri bin Mohamad, You Yin, Hui Zhang, Ryosuke Takahashi, and Vu Le Mine Nhat

Subjects

Scanning Hall probe microscope, Microscope, Materials science, business.industry, Mechanical Engineering, Nanotechnology, Near and far field, Magnetic field, law.invention, Magnetization, Scanning probe microscopy, Mechanics of Materials, law, Optoelectronics, General Materials Science, Nanodot, Magnetic force microscope, business

Abstract

In this study, we tried to develop the scanning near-field polarization microscope (SNPM) and challenge to observe magnetization of the magnetic nanodot in the arrays. The CoPt dot arrays with a size of 25 nm and a pitch of 150 nm were adopted. The nanodots change contrast after changing the direction of the external magnetic field. This implied that our prototyped SNPM system had the resolution of less than 25 nm. So, it is demonstrated that SNPM is an effective tool for the observation of magnetization of the magnetic nanodot on the nanometer scale.

Published

2015

15. Long Range Ordering of 5-nm-Sized Dot Arrays with a Pitch of <10 nm along EB-Drawn Guide Lines Using PS-PDMS Self-Assembly

Author

Yu Long Zhang, Tao Jin, Sumio Hosaka, Miftakhul Huda, You Yin, Jing Liu, and Hui Zhang

Subjects

Range (particle radiation), Materials science, business.industry, Mechanical Engineering, Nanotechnology, Template, Resist, Mechanics of Materials, Line (geometry), Patterned media, Optoelectronics, General Materials Science, Nanodot, Self-assembly, business

Abstract

We demonstrate the possibility of forming long-range-ordered self-assembled nanodot arrays with dots size of 5 nm and pitches of 10×7.5 nm2using guide line templates and low molecular weight (MW) (4,700–1,200 g/mol) poly (styrene)-poly (dimethylsiloxane) (PS-PDMS) for application in ultrahigh density patterned media. The self-assembled PDMS nanodots are controlled in a long range by varying the heights and gaps of the guide lines. Adopting the 14-nm-high resist guide lines with suitable gaps, the 5-nm-sized and 10×7.5 nm2-pitched self-assembled nanodots were ordered in maximum 7 dot arrays with long-range order. The experimental results demonstrate that the method is possible for achieving patterned media with magnetic recording densities of 8.6 Tbit/in.2using low MW PS-PDMS and slim guide lines.

Published

2015

16. Monolayer Selective Methylation of Epitaxial Graphene on SiC(0001) through Two-Step Chlorination–Alkylation Reactions

Author

Hiroyuki Noritake, Sumio Hosaka, Shinya Yoshimoto, Yuichiro Shiozawa, Jun Yoshinobu, Maisarah B. A. Razak, Kozo Mukai, Md. Zakir Hossain, and Takanori Koitaya

Subjects

Materials science, Graphene, Inorganic chemistry, Alkylation, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, law.invention, symbols.namesake, General Energy, Chemical engineering, X-ray photoelectron spectroscopy, law, Monolayer, symbols, Epitaxial graphene, Physical and Theoretical Chemistry, Scanning tunneling microscope, Raman spectroscopy, Spectroscopy

Abstract

One of the real challenges in realization of many of graphene’s anticipated applications is the development of a common chemical route for modifying graphene with varieties of functionalities. Here, we successfully demonstrate the organic modification of epitaxial graphene (EG) grown on the Si-face of SiC substrate through two-step chlorination–alkylation reactions. Pristine and chemically modified graphene are characterized by scanning tunneling microscope and spectroscopy, X-ray photoelectron spectroscopy, and Raman measurements. The first-step photochlorination is found to occur very selectively on the monolayer graphene region leaving the bi- and trilayer graphene regions clean. Consequently, the CH3-functionalized graphene is observed only in the monolayer graphene regions after the chlorinated EG was treated with CH3MgBr in air-free condition. Both Cl and CH3 are observed to be chemically bonded to the basal plane of the graphene. The CH3-functionalized graphene is thermally more stable than that of...

Published

2014

17. Ordering of 6-nm-sized nanodot arrays with 10-nm-pitch using self-assembled block copolymers along electron beam-drawn guide-lines

Author

Miftakhul Huda, Sumio Hosaka, Hui Zhang, Takuya Komori, Takashi Akahane, and You Yin

Subjects

Materials science, Magnetic storage, Nanotechnology, Condensed Matter Physics, Atomic and Molecular Physics, and Optics, Dot pitch, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, law.invention, chemistry.chemical_compound, Template, Resist, chemistry, law, Patterned media, Self-assembly, Nanodot, Electrical and Electronic Engineering, Hydrogen silsesquioxane

Abstract

Graphical abstractDisplay Omitted We succeeded in ordering 6-nm-sized dot arrays with 10-nm-pitch between guide lines.The ordering was achieved by graphoepitaxy with self-assemble and the line template.3 to 7-ordered PDMS dot arrays were formed between 12-nm-wide EB-drawn guide lines.The block copolymer was PS-PDMS with a molecular weight of 7000-1700kg/mol.The 10×12-nm-pitched nanodot arrays corresponds to 5 Tbit/in2 magnetic storage. We studied the possibility to form long-range ordering of self-assembled nanodot arrays with a dot size of 6nm and a dot pitch of 12nm using guide-line templates for ultrahigh-density patterned media. This was realized by using self-assembled block copolymers of polystyrene-poly dimethyl siloxane (PS-PDMS) and the templates made of hydrogen silsesquioxane (HSQ) negative electron beam (EB) resist. We have demonstrated that the method could possibly achieve a minimum pitch of about 10nm using PS-PDMS of molecular weight 7000-1500g/mol and EB-drawn guide lines. These results evidence the promising potential of a technology for achieving 5 Tbit/in2 magnetic storage devices.

Published

2014

18. Estimation of pattern resolution using NaCl high-contrast developer by Monte Carlo simulation of electron beam lithography

Author

Yu Long Zhang, Takuya Komori, Sumio Hosaka, Hui Zhang, Miftakhul Huda, and You Yin

Subjects

Fabrication, Materials science, Analytical chemistry, Condensed Matter Physics, Atomic and Molecular Physics, and Optics, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Ammonium hydroxide, chemistry.chemical_compound, chemistry, Resist, Deposition (phase transition), Nanodot, Electrical and Electronic Engineering, Solubility, Hydrogen silsesquioxane, Electron-beam lithography

Abstract

The influences of different concentrations of NaCl in tetramethyl ammonium hydroxide (TMAH) developer on the electron beam lithography resolution of hydrogen silsesquioxane (HSQ) resist were studied, using original development model based on the three-dimensional (3D) energy deposition distributions (EDDs) and the experimental developing behaviors. The development behaviors of HSQ resist developed in 2.3wt.% TMAH, 2.3wt.% TMAH with 2wt.% NaCl and 2.3wt.% TMAH with 4wt.% NaCl developer were measured, respectively, to provide the solubility rates at different exposure dosages for the simulation. On the basis of the solubility rates and 3D-EDDs, the optimal EDD regions were determined for achieving sharp nanodot patterns. The optimal resist profiles of the three different developers were compared, showing that the 2.3wt.% TMAH with 4wt.% NaCl developer is suitable to form 7-nm-sized, 15-nm-pitched nanodots with sufficient height. The simulations were demonstrated to be useful for estimating the pattern resolutions with different solubility rates of developers, especially for sub-10nm nanodot fabrication.

Published

2014

19. Ultra-Multilevel-Storage Phase Change Memory

Author

You Yin and Sumio Hosaka

Subjects

Phase-change memory, Computer science, General Engineering, Algorithm, Reliability (statistics), Computational science

Abstract

In this study, we investigated ultra-multilevel-storage (UMLS) in lateral phase change memory (PCM) on the basis of device structure, reliability and programming method. We found that the number of resistance levels was limited strictly by the number of PC layers in multilayer multilevel cell (ML-MLC). A number of distinct levels up to 16 were obtained using a simple single-layer multilevel cell (SL-MLC). And material engineering is expected to greatly improve the reliability of MLS. We believe that fast-freely-achievable (FFA)-MLC by stair-like-pulse programming is a very promising method for futures application.

Published

2014

20. Recrystallization process controlled by staircase pulse in phase change memory

Author

Ryota Kobayashi, Sumio Hosaka, and You Yin

Subjects

Materials science, Condensed matter physics, Annealing (metallurgy), Recrystallization (metallurgy), Condensed Matter Physics, Phase-change material, Atomic and Molecular Physics, and Optics, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Phase-change memory, Crystallography, Amplitude, Melting point, Electrical and Electronic Engineering

Abstract

In this study, we investigate the recrystallization process in phase-change memory by applying staircase pulses. The controlled recrystallization process is expected to be applied to freely achievable multilevel storage. Simulation results exhibit that the phase change material is heated above its melting point during the first subpulse of the staircase pulse and then annealing temperature can be controlled by varying amplitude of the second subpulse. This implies that the recrystallization region is controllable by applying staircase pulses. V-shaped resistance change vs. the amplitude of the second subpulse, which is caused by the growth and the shrinkage of recrystallized region, is obtained at each width of second subpulse.

Published

2014

21. Aqueous-Phase Oxidation of Epitaxial Graphene on the Silicon Face of SiC(0001)

Author

Maisarah B. A. Razak, Jun Yoshinobu, Sumio Hosaka, Kozo Mukai, Hayato Sone, Mark C. Hersam, Takanori Koitaya, Zakir Hossain, and Shinya Yoshimoto

Subjects

Materials science, Silicon, Graphene, Band gap, Scanning tunneling spectroscopy, Analytical chemistry, chemistry.chemical_element, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, law.invention, symbols.namesake, General Energy, X-ray photoelectron spectroscopy, chemistry, Chemical engineering, law, Oxidizing agent, symbols, Physical and Theoretical Chemistry, Scanning tunneling microscope, Raman spectroscopy

Abstract

To explore the chemical and electronic states of oxidized epitaxial graphene (EG) grown on the Si face of SiC(0001), we employ the Hummers oxidizing agents (H2SO4 + NaNO3 + KMnO4) under different reaction conditions that oxidize the graphene layer. The resulting material is characterized with scanning tunneling microscopy (STM), scanning tunneling spectroscopy (STS), Raman spectroscopy, and X-ray photoelectron spectroscopy (XPS). A mild “drop-cast” procedure at 60 °C is found to be equally effective at oxidizing EG as the conventional Hummers procedure. This aqueous-phase oxidation reaction appears to proceed in an autocatalytic manner as indicated by the concurrent observation of patches of oxidized and clean graphene areas in atomically resolved STM images on partially oxidized EG. STS further reveals substantial changes in electronic structure for oxidized EG including the opening of a local band gap of ∼0.4 eV. The oxidation is confined to the graphene layers as verified by XPS characterization of the...

Published

2013

22. Fabrication of CoPt Nanodot Array with a Pitch of 33 nm Using Pattern-Transfer Technique of PS-PDMS Self-Assembly

Author

Zulfakri bin Mohamad, Sumio Hosaka, You Yin, Miftakhul Huda, and Takuya Komori

Subjects

Nanodot array, Materials science, Fabrication, Mechanics of Materials, Mechanical Engineering, Dimethyl siloxane, Patterned media, High selectivity, Copolymer, General Materials Science, Nanotechnology, Self-assembly, Ion milling machine

Abstract

The progress of information technology has increased the demand of the capacity of storage media. Bit patterned media (BPM) has been known as a promising method to achieve the magnetic-data-storage capability of more than 1 Tb/in.2. In this work, we demonstrated fabrication of magnetic nanodot array of CoPt with a pitch of 33 nm using a pattern-transfer method of block copolymer (BCP) self-assembly. Carbon hard mask (CHM) was adopted as a mask to pattern-transfer self-assembled nanodot array formed from poly (styrene)-b-poly (dimethyl siloxane) (PS-PDMS) with a molecular weight of 30,000-7,500 mol/g. According to our experiment results, CHM showed its high selectivity against CoPt in Ar ion milling. Therefore, this result boosted the potential of BCP self-assembly technique to fabricate magnetic nanodot array for the next generation of hard disk drive (HDD) due to the ease of large-area fabrication, and low cost.

Published

2013

23. Estimation of HSQ Resist Profile by Using High Contrast Developement Model for High Resolution EB Lithography

Author

Takuya Komori, Hui Zhang, Zulfakri bin Mohamad, Sumio Hosaka, Yu Long Zhang, You Yin, and Jing Liu

Subjects

High contrast, Materials science, business.industry, Mechanical Engineering, media_common.quotation_subject, Resolution (electron density), High resolution, chemistry.chemical_compound, Optics, chemistry, Resist, Mechanics of Materials, Contrast (vision), General Materials Science, business, Lithography, Hydrogen silsesquioxane, Deposition (law), media_common

Abstract

We calculated thehydrogen silsesquioxane (HSQ) resistprofiles with different contrast developers (γ from 1.9 to 8.1) to reveal the effect of resist contrast on pattern resolution performance. Based on our home-made development modeling, the suitable energy deposition distribution (EDD) regions for various developers were determined by evaluating the quality of simulated patterns. High contrast TMAH 2.3 wt%/NaCl 4 wt% developer was demonstrated that it is suitable to form very fine dot arrays with a size of 7 nm. Low contrast developer has the limitation of forming fine pattern with sufficient height. The simulation results indicated that increasing developer contrast is benefit to improve pattern resolution.

Published

2013

24. Monte Carlo Simulation of Electron Trajectory in Solid for Electron Beam Lithography

Author

Sumio Hosaka and Akie Nagao

Subjects

Physics, Range (particle radiation), business.industry, Mechanical Engineering, Monte Carlo method, Electron, Optics, Resist, Mechanics of Materials, General Materials Science, business, Electron-beam lithography, Energy (signal processing), Electron trajectory

Abstract

We have developed a GUI(Graphical User Interface)-based Monte Carlo simulation tool for electron beam lithography. Simulation was executed by changing initial energy, thickness of resist, and target material. We focused on penetration range, backscattering coefficient and spatial distribution of lost energy. Comparison with other theory indicates that our simulation is reliable in the 10-50keV range of the energy of the electron. It seems that backscattering coefficient is strongly affected by the kind of atoms in the target, not initial energy.

Published

2013

25. Reconstruction of Atomic Force Microscope Image Using Estimated Tip Shape from Impulse Response Technique

Author

You Yin, Hayato Sone, Sumio Hosaka, and Yasuhiko Harada

Subjects

Surface (mathematics), Materials science, business.industry, Mechanical Engineering, Image processing, Nanotechnology, Conductive atomic force microscopy, Sample (graphics), Image (mathematics), Optics, Mechanics of Materials, General Materials Science, Magnetic force microscope, business, Impulse response, Surface reconstruction

Abstract

Atomic force microscopy (AFM) is the useful tool for measuring the micro fabricated devices. Measuring sample surface with AFM, tip-induced distortions are serious problem for accurate measurement. In order to overcome this problem, many studies are reported to reconstruct surface image to original sample surface. We studied method of reconstruction technique of the AFM image by using estimated 3-D tip shape from the impulse response technique. To reconstruct the image of the sample surface, we used a morphological reconstruction process. We demonstrated how to obtain the 3-D tip from the using impulse response technique and then how to reconstruct the 3-D AFM image using estimated tip shape.

Published

2013

26. Ordering of Self-Assembled Nanodots Improved by Guide Pattern with Low Line Edge Roughness for 5 Tbit/in.2 Patterned Media

Author

You Yin, Jing Liu, Sumio Hosaka, Takashi Akahane, Miftakhul Huda, Takuya Komori, Zulfakri bin Mohamad, and Muneyasu Masuda

Subjects

Materials science, Fabrication, Resist, Mechanics of Materials, Mechanical Engineering, Patterned media, Copolymer, General Materials Science, Nanotechnology, Terabit, Self-assembly, Nanodot, Line edge roughness

Abstract

We investigated the possibility of ordering of 12 nm pitced self-assembled nanodots from block copolymer (BCP) improved by the guide pattern with low line edge roughness (LER) for patterned media. We found that LER of the line pattern (σ-value) was reduced by using high-resolution salty development for HSQ resist line pattern fabrication compared with conventional tetramethyl ammonium hydroxide (TMAH) developer. By adopting this development technique to guide pattern fabrication, we demonstrated 10 rows of ordered self-assembled BCP nanodot arrays with a size of 6 nm and a pitch of 12 nm (5 Tbit/in.2) between the guide patterns.

Published

2013

27. Fabrication of 6-nm-Sized Nanodot Arrays with 12 nm-Pitch along Guide Lines Using both Self-Assembling and Electron Beam-Drawing for 5 Tbit/in2 Magnetic Recording

Author

Miftakhul Huda, Sumio Hosaka, Takuya Komori, Hui Zhang, You Yin, and Takashi Akahane

Subjects

Fabrication, Materials science, Mechanical Engineering, Magnetic storage, Nanotechnology, law.invention, Mechanics of Materials, law, Patterned media, Self assembling, Cathode ray, General Materials Science, Terabit, Self-assembly, Nanodot

Abstract

A possibility to fabricate nanodot arrays with a dot size of 2 using self-assembling with PS-PDMS of molecular weight 7000-1500 and EB-drawing for narrow guide lines. These results prove that the fusion method is required for achieving extremely small dot arrays as 5 Tbit/in2magnetic storage devices.Keywords: Nanodot, self-assembly, electron-beam drawing, graphoepitaxy, patterned media, magnetic recording.

Published

2013

28. Fabrication of 25-nm-Pitched CoPt Magnetic Dot Arrays Using 30-keV-Electron Beam Drawing, RIE and Ion-Milling

Author

Sumio Hosaka, Takuya Komori, Zulfakri bin Mohamad, Rosalena Irma Alip, Hui Zhang, You Yin, and Miftakhul Huda

Subjects

Fabrication, Materials science, business.industry, Mechanical Engineering, Optics, Carbon film, Resist, Mechanics of Materials, Patterned media, Cathode ray, General Materials Science, Reactive-ion etching, Ion milling machine, business, Electron-beam lithography

Abstract

In this study, we have fabricated 25-nm-pitched magnetic dot arrays using electron beam lithography (EBL), reactive ion etching (RIE) and ion-milling. We have used double mask method with calixarene resist and carbon film as a hard mask to transfer fine pattern to CoPt magnetic film. We transferred the calixarene resist dot arrays to carbon layer using O2gas in RIE as a first mask, then transferred the carbon dot arrays to CoPt magnetic layer as a second hard mask using ion-milling. We demonstrated that double mask method is very suitable to fabricate 25-nm-pitched magnetic dot arrays with a dot size of 18 nm and a height of 15 nm for patterned media with 1 Tb/in2.

Published

2013

29. Controlled Crystallization Process of Phase Change Memory Device by a Separate Heater Structure

Author

Sumio Hosaka, Rosalena Irma Alip, Zulfakri bin Mohamad, and You Yin

Subjects

Materials science, business.industry, Mechanical Engineering, Electrical engineering, Ranging, Pulse (physics), law.invention, Phase-change memory, Amplitude, Mechanics of Materials, law, Optoelectronics, General Materials Science, Crystallization, business, Layer (electronics), Order of magnitude, Pulse-width modulation

Abstract

A Phase change Memory (PCM) device with a separate heater structure was proposed in order to control the crystallization process of the device. Some experimental works have been done to investigate the possibility. A SET pulse with amplitude ranging from 0 V to 3 V and pulse width of 100 ns was applied to the separate-heater layer, TiSi3 for heating up the memory layer, Ge2Sb2Te5. From the experimental result, the resistance of the memory layer dropped gradually by more than two orders of magnitude. This will allow multilevel storage for the memory device.

Published

2013

30. Fabrication of Carbon Nanodot Arrays with a Pitch of 20 nm for Pattern-Transfer of PDMS Self-Assembled Nanodots

Author

Sumio Hosaka, Miftakhul Huda, Zulfakri bin Mohamad, Hui Zhang, You Yin, and Jing Liu

Subjects

Fabrication, Materials science, Silicon, Mechanical Engineering, chemistry.chemical_element, Nanotechnology, chemistry, Mechanics of Materials, Copolymer, General Materials Science, Self-assembly, Nanodot, Reactive-ion etching, Carbon, Layer (electronics)

Abstract

We investigated the fabrication of self-assembled nanodot array using poly (styrene)-poly (dimethyl-siloxane) (PS-PDMS) block copolymer and its transfer technique as a promising method to fabricate magnetic nanodot arrays for ultrahigh density recording. A carbon (C) layer with a high etch-resistance was especially adopted for magnetic nanodot fabrication. We fabricated PDMS nanodot using PS-PDMS block copolymer with a molecular mass of 11,700-2,900 g/mol. The nanodots were first transferred into silicon (Si) layer and then into C layer on Si substrate by carbon tetrafluoride (CF4) and oxygen (O2) reactive ion etching (RIE), respectively. We succeeded in fabricating C nanodots with a diameter of 10 nm and an average pitch of 20 nm.

Published

2013

31. Fabrication of Si Nanowire Biosensor Using FIB and its Evaluations

Author

Sumio Hosaka, Anh Hoang Truong, and Hayato Sone

Subjects

Fabrication, Materials science, business.industry, Mechanical Engineering, Nanowire, Silicon on insulator, Nanotechnology, Focused ion beam, Electrical resistance and conductance, Mechanics of Materials, Electrode, Optoelectronics, General Materials Science, Wafer, business, Ohmic contact

Abstract

We demonstrated the fabrication of silicon nanowire (SiNW) sensors by focused ion beam (FIB) method and determined the effects of changes of nanowire parameters of width and wire-number on the SiNW electrical property. SiNW sensors were fabricated on a silicon-on-insulator (SOI) wafer with Au-Cr electrodes by the FIB method. We fabricated the SiNW sensor with a minimum width of 90 nm, length of 20 μm and height of 60 nm. The I-V characteristics in the state of ohmic contact were obtained, and the SiNW resistance was found to have 0.86 MΩ and a resistivity of 0.02 Ωcm. In addition, the electrical resistance dependence on width and wire-number was investigated. We found that wire conductance could be increased by increasing the wire-number and wire width.

Published

2013

32. Electron Beam Lithography for Fabrication of Nanophase-Change Memory

Author

You Yin, Sumio Hosaka, and Taichi Itagawa

Subjects

Phase-change memory, chemistry.chemical_compound, Materials science, Fabrication, chemistry, Resist, Nanowire, Nanotechnology, General Medicine, Reactive-ion etching, Photoresist, Hydrogen silsesquioxane, Electron-beam lithography

Abstract

In this work, we report two methods to fabricate the nanophase-change memory: (1) electron beam lithography (EBL) using the positive resist ZEP-520A followed by phase change material deposition and lift-off processes, (2) EBL using the negative resist hydrogen silsesquioxane (HSQ) followed by reactive ion etching (RIE) after phase change material deposition. For the former method, the optimized exposure dosage is around 40 μC/cm2 and the finest nanowire is about 80 nm in width. On the other hand, the latter method shows that the finest nanowire can be as small as about 15 nm in width after RIE process and the optimized exposure dosage is around 2.0 mC/cm2. In this case, collapse-preventing pattern becomes necessary for fabrication of such a fine nanowire.

Published

2013

33. Fabrication Using Focused Ion Beam Processing of Devices Employing Silicon-Based Nanowires Synthesized by Vapor-Liquid-Solid Growth

Author

Yasuyuki Suda, Hayato Sone, Yousuke Nakamura, and Sumio Hosaka

Subjects

Materials science, Fabrication, Silicon, chemistry, Electrical resistivity and conductivity, Electrode, Nanowire, chemistry.chemical_element, Nanotechnology, General Medicine, Substrate (electronics), Focused ion beam, Ohmic contact

Abstract

Undoped and B-doped silicon-based nanowires (SiNWs) were synthesized by vapor-liquid-solid growth, and SiNW devices using Au electrodes were prototyped using focused ion beam (FIB) processing. Needle-shaped thin SiNWs were formed at a substrate temperature between 1170 and 1313 °C. The average and minimum diameters of the B-doped SiNWs were 72 nm and 52 nm, respectively. According to the current-voltage characteristics, SiNW devices have ohmic properties, and the estimated resistivity of the undoped and B-doped SiNWs are about 3.8 × 103Ωcm and 1.7 × 103Ωcm, respectively.

Published

2013

34. TiSiN Films by Reactive RF Magnetron Co-Sputtering for Ultra-Low-Current Phase Change Memory

Author

Sumio Hosaka and You Yin

Subjects

Materials science, Annealing (metallurgy), business.industry, General Medicine, Relative stability, Volumetric flow rate, Phase-change memory, Phase change, Electrical resistivity and conductivity, Sputtering, Cavity magnetron, Electronic engineering, Optoelectronics, business

Abstract

Our simulation reveals that the programming current of phase change memory (PCM) is expected to dramatically reduce to tens of μA with the help of a heating layer. TiSiN films by reactive RF magnetron co-sputtering are investigated for application to the heating layer of the ultra-low-current PCM. The resistivity of TiSiN films is well controlled from around to with increasing N2partial flow rate to 10%. The effect of annealing on the TiSiN films exhibits the relative stability of the resistivity of the films. This implies that these TiSiN films can be used as a universal heating layer for the intensively researched phase change materials.

Published

2013

35. Spectroscopic Ellipsometry Mesurements for Liquid and Solid InSb around Its Melting Point

Author

Toshiyasu Tadokoro, Tomoyoshi Endo, Rie Endo, Fukuyoshi Morikasa, Takayuki Shima, Kouichi Tsutsumi, Masahiro Susa, Sumio Hosaka, Michio Suzuki, and Masashi Kuwahara

Subjects

Materials science, Condensed matter physics, Condensed Matter::Other, business.industry, General Engineering, Physics::Optics, General Physics and Astronomy, Metal, Condensed Matter::Materials Science, Wavelength, Optics, visual_art, Melting point, visual_art.visual_art_medium, Spectroscopic ellipsometry, Dielectric function, business, Refractive index, Optical disc

Abstract

We have carried out spectroscopic ellipsometry measurements for liquid- and solid-phase InSb around its melting point for wavelengths of 300 to 1700 nm. The real and imaginary parts of the complex refractive index for liquid and solid InSb appear to be completely different, with the imaginary part for the liquid being higher than that of the solid. This result agrees with the proposed mechanism for the super-resolution readout effect in optical disks using an InSb film. From a dielectric function analysis, we find that InSb characteristics clearly change from semiconducting in the solid to metallic in the liquid.

Published

2013

36. Self-Assembled Incorporation of Modulated Block Copolymer Nanostructures in Phase-Change Memory for Switching Power Reduction

Author

You Yin, Keon Jae Lee, Caroline A. Ross, Sumio Hosaka, Jeong Yong Lee, Hyeon Kook Seo, Woon Ik Park, Beom Ho Mun, Byoung Kuk You, and Yeon Sik Jung

Subjects

Nanostructure, Materials science, Chalcogenide, General Engineering, General Physics and Astronomy, Nanotechnology, Phase-change material, Reduction (complexity), Phase-change memory, chemistry.chemical_compound, chemistry, Electrode, Copolymer, General Materials Science, Self-assembly

Abstract

Phase change memory (PCM), which exploits the phase change behavior of chalcogenide materials, affords tremendous advan- tages over conventional solid-state memory due to its nonvolatility, high speed, and scalability. However, high power consumption of PCM poses a critical challenge and has been the most significant obstacle to its widespread commercialization. Here, we present a novel approach based on the self-assembly of a block copolymer (BCP) to form a thin nanostructured SiOx layer that locally blocks the contact between a heater electrode and a phase change material. The writing current is decreased 5-fold (corresponding to a power reduction by 1/20) as the occupying area fraction of SiOx nanostructures is increased from a fill factor of 9.1% to 63.6%. Simulation results theoretically explain the current reduction mechanism by localized switching of BCP-blocked phase change materials.

Published

2013

37. Fabrication of Hole-Type Microcantilevers Using FIB and its Evaluations

Author

Hayato Sone, Anh Hoang Truong, Sumio Hosaka, and Tomoyuki Kawakami

Subjects

Cantilever, Fabrication, Materials science, Q value, Mechanical Engineering, Analytical chemistry, Frame size, Focused ion beam, Piezoresistive effect, Mechanics of Materials, General Materials Science, Composite material, Biosensor, Sensitivity (electronics)

Abstract

A high sensitive mass biosensor using a piezoresistive hole-type microcantilever has been developed. To optimize the cantilever shape for high sensitivity easily, we demonstrate frame-type cantilevers with holes on the surface fabricated by Focused Ion Beam (FIB) method and evaluate their sensitivity in both air and liquid. Resonance frequency of hole-type cantilevers increased about 20% and 40% in air and in water, respectively. On the other hand, while Q value decreased from 10% to 30% in air, it increased sharply from 0% to 50% in water with increasing of hole-size. Especially, when we increased the frame size from 0.5 µm to 2.5 µm, resonance frequency changing and Q value changing in water were 60% and 125%, respectively. However, the Q value of large hole (36x60µm2) in water inversely decreased due to the decline in rigidity. The sensitivity of hole-type cantilever of Δm/Δf(hole-size = 12x12μm2; frame-size = 2.5μm) was 23.1 fg/Hz, 10 times smaller than the conventional type cantilever.

Published

2013

38. Vapor-Liquid-Solid Growth of Silicon-Based Nanowires for High Sensitive Sensor

Author

Daiki Kubota, Yasuyuki Suda, Hayato Sone, and Sumio Hosaka

Subjects

Materials science, Silicon, business.industry, Mechanical Engineering, Nanowire, chemistry.chemical_element, Nanotechnology, Substrate (electronics), Focused ion beam, Core (optical fiber), chemistry, Mechanics of Materials, Transmission electron microscopy, Electrical resistivity and conductivity, Optoelectronics, General Materials Science, Vapor liquid, business

Abstract

Silicon-based nanowires (Si-NWs) were fabricated by vapor liquid solid (VLS) growth, and Si-NW device was prototyped using focused ion beam (FIB) processing. The needle shaped thin Si-NWs were formed at a substrate temperature between 1120 and 1313°C. The average and minimum diameters of the NWs were confirmed 60 nm and 44 nm, respectively. As the double-layered structure was observed in the NWs by transmission electron microscope images, it is possible that those are silicon-based NWs with Si core and SiO2shell structure. From current-voltage characteristics, the Si-NW device has a semiconducting property, and the estimated resistivity of the Si-NW is about 3.1 x 104Ωcm.

Published

2013

39. Fabrication of 30-nm-Pitched CoPt Magnetic Dot Arrays Using 30-keV-Electron Beam Lithography and Ion Milling for Patterned Media

Author

Zulfakri bin Mohamad, Hui Zhang, Sumio Hosaka, Rosalena Irma Alip, You Yin, Takuya Komori, Takashi Akahane, and Miftakhul Huda

Subjects

Fabrication, Materials science, Resist, Mechanics of Materials, Mechanical Engineering, Patterned media, Cathode ray, General Materials Science, Nanotechnology, Ion milling machine, Lithography, Dot pitch, Electron-beam lithography

Abstract

CoPt magnetic dot arrays with a fine pitch of 30 nm have been fabricated using electron beam (EB) lithography and ion milling. The possibility to ion-mill CoPt film using EB drawn calixarene resist pattern as a mask has been studied. We formed 30 nm pitch resist dot arrays with a dot diameter of 20 nm using 30-keV-EB lithography with calixarene resist. The resist dot arrays were ion-milled for 4 min using 200-eV Ar ion milling to fabricate CoPt dot arrays on a Si substrate. We fabricated fine pitched CoPt magnetic dot arrays with a diameter of 22-35 nm and a pitch of 30-150 nm. Results show that the ion-milled CoPt dot diameter increased with the dot pitch while the resist dot had a similar diameter of 20 nm.

Published

2013

40. A Novel Phase Change Memory with a Separate Heater Characterized by Constant Resistance for Multilevel Storage

Author

Zulfakri bin Mohamad, Yu Long Zhang, Rosalena Irma Alip, Sumio Hosaka, You Yin, and Ryota Kobayashi

Subjects

Materials science, Pulse (signal processing), business.industry, Mechanical Engineering, Drop (liquid), Electrical engineering, Finite element method, law.invention, Phase-change memory, Amplitude, Mechanics of Materials, law, Optoelectronics, General Materials Science, Crystallization, Constant (mathematics), business, Layer (electronics)

Abstract

A novel phase change memory structure with a separate heater was proposed for a multilevel storage. Finite element analysis was conducted to investigate the possibility of multilevel storage. 100 ns SET pulses, with an increasing amplitude from 0.5 V to 3 V, were applied for heating the phase change layer, Ge2Se2T5 (GST). From the simulation result, it was exhibited that the temperature in the GST layer increased gradually when an increasing pulse is applied to the separate heater layer (N-TiSi3). This implies that crystallization is well controlled by changing the amplitude of the applied SET pulse. The gradual increase in the temperature leads to gradual resistance drop, depending strongly on the capping material. The gradual resistance drop will allow multilevel storage for the memory device.

Published

2013

41. Comparison of Nanosized Pattern of Calixarene and ZEP520 Resists by Using Energy Deposition Distribution

Author

You Yin, Hui Zhang, Zulfakri bin Mohamad, Sumio Hosaka, and Takuya Komori

Subjects

Materials science, business.industry, Capillary action, Mechanical Engineering, Resolution (electron density), Photoresist, Optics, Resist, Mechanics of Materials, Calixarene, Deposition (phase transition), General Materials Science, business, Beam (structure), Electron-beam lithography

Abstract

We numerically modeled the process of exposure and development of the calixarene negative resist and ZEP520 positive resist in electron beam lithography (EBL) in order to understand the limitation of nanopatterning of these two resists and to improve the resolution of the patterning. From the calculation of energy deposition distribution (EDD) in resist at various beam diameters, it is obvious that the fine probe beam with a diameter of 2 nm and thin resist should be adopted for formation of very fine dots. The simulation of resist development profile indicates that a dot size of 2 nm with a pitch of 20 nm can even be obtained at a higher critical energy density by using calixarene resist, while it cannot form the small pattern by using the ZEP520 resist because of the capillary force.

Published

2013

42. Piezoresistive Acceleration Sensor with High Sensitivity and High Responsiveness

Author

Takahiro Fuju, Shintaro Kurokami, You Yin, Sumio Hosaka, Yoshiharu Sueyoshi, Haruki Okano, and Zulfakri bin Mohamad

Subjects

Microelectromechanical systems, Physics, Acceleration, Mechanics of Materials, business.industry, Mechanical Engineering, Acoustics, Electrical engineering, General Materials Science, business, Sensitivity (electronics), Piezoresistive effect, Slit

Abstract

In this work, a new-type piezo-resistive acceleration sensor with a slit in the beams is proposed to improve sensitivity by reducing the twisting of the beams. Experimental results demonstrated that the new-type acceleration sensor has about 3.5 times higher than that of the conventional acceleration sensor without the slit. Furthermore, resonant frequency of the new-type sensor increases to about 5 kHz by a factor of 25, compared with commercial acceleration sensor.

Published

2013

43. Improved Observation Contrast of Block-Copolymer Nanodot Pattern Using Carbon Hard Mask (CHM)

Author

Sumio Hosaka, Miftakhul Huda, Takashi Akahane, You Yin, Zulfakri bin Mohamad, Jing Liu, and Takuya Komori

Subjects

Materials science, business.industry, Mechanical Engineering, media_common.quotation_subject, chemistry.chemical_element, Nanotechnology, chemistry.chemical_compound, Carbon film, chemistry, Mechanics of Materials, Siloxane, Copolymer, Optoelectronics, Contrast (vision), General Materials Science, Nanodot, Self-assembly, Ion milling machine, business, Carbon, media_common

Abstract

In this work, improvement of the observation contrast was investigated by using a carbon film as the hard mask for pattern transfer of block copolymer (BCP) nanodots. The PS-PDMS (Poly (styrene-b-dimethyl siloxane)) block copolymer was adopted here. The observation contrast was greatly improved after transferring block copolymer (BCP) nanodots pattern to the underlying Si substrate through the carbon hard mask compared that before nanodot pattern transfer. Pattern transfer was also demonstrated to be very effective using carbon hard mask.

Published

2013

44. Multi-Level Storage in Lateral Phase Change Memory: From 3 to 16 Resistance Levels

Author

Ryota Kobayashi, Yu Long Zhang, You Yin, Sumio Hosaka, and Rosalena Irma Alip

Subjects

Dynamic switching, Materials science, business.industry, Chalcogenide, Mechanical Engineering, chemistry.chemical_element, Nanotechnology, law.invention, Phase-change memory, chemistry.chemical_compound, Phase change, chemistry, Mechanics of Materials, law, Optoelectronics, General Materials Science, Crystallization, business, Joule heating, Tin, Layer (electronics)

Abstract

Here, we report multi-level storage (MLS) in multi-layer (ML) and single-layer (SL) phase change memories (PCM). For the former ML-PCM device, the active medium with two layers of chalcogenide consists of a top 30 nm TiN/180 nm SbTeN/20 nm TiN/bottom 120 nm SbTeN stacked multi-layer. Three stable and distinct resistance states are demonstrated in both static and dynamic switching characteristics of the multi-layer devices. For the latter SL-PCM device, the active medium with only one layer of chalcogenide consists of a top 50 nm TiN/150 nm SbTeN. We demonstrate that the number of distinguishable resistance levels can readily reach 16 and even higher. These levels in this study result from the initial threshold switching and the subsequent current-controlled crystallization induced by Joule heating. Therefore, the latter memory allows the creation of many distinct levels, thus enabling the low-cost ultra-high-density non-volatile memory.

Published

2013

45. Magnetic Separation of Organic Dyes in Wastewater Using Superconducting Bulk Magnets

Author

Sumio Hosaka, Kazuya Yokoyama, and Noriyo Kondo

Subjects

Superconductivity, Chromatography, Materials science, Mechanical Engineering, Magnetic separation, Volumetric flow rate, chemistry.chemical_compound, Adsorption, Chemical engineering, Ferromagnetism, Wastewater, chemistry, Mechanics of Materials, Magnet, General Materials Science, Crystal violet

Abstract

We propose a magnetic separation system using superconducting bulk magnets to effectively separate organic dyes in wastewater. Two key technologies are applied in this system: magnetic seeding and magnetic separation. Magnetic activated carbons (MACs) are used to adsorb organic dyes Orange II and Crystal violet, which serve as magnetic seeds. We set up a magnetic separator by placing an acrylic pipe between the magnetic poles of a face-to-face superconducting bulk magnet for high gradient magnetic separation (HGMS) with the use of a stainless steel filter, composed of ferromagnetic wire stuffed into acrylic pipe. The experimental results show that the adsorption ratios of 99% and the separation ratios of over 97% were achieved at low flow rate for the organic dyes.

Published

2013

46. Effect of Salty Development on Forming HSQ Resist Nanodot Arrays with a Pitch of 15×15 nm2 by 30-keV Electron Beam Lithography

Author

Hui Zhang, Takuya Komori, Takashi Akahane, Sumio Hosaka, You Yin, and Zulfakri bin Mohamad

Subjects

Ammonium hydroxide, chemistry.chemical_compound, Materials science, Resist, chemistry, Mechanics of Materials, Mechanical Engineering, Patterned media, General Materials Science, Nanotechnology, Nanodot, Hydrogen silsesquioxane, Electron-beam lithography

Abstract

We investigated the effect of ultrahigh-resolution salty (NaCl contained) development of hydrogen silsesquioxane (HSQ) resist on forming fine dot arrays with a pitch of 15×15 nm2 by 30-keV electron beam lithography for patterned media. The optimized concentration of resist developers was determined to fabricate most packed pattern. We found that increasing the concentration of NaCl into tetramethyl ammonium hydroxide (TMAH) could greatly improve the resist contrast (γ-value) of HSQ. And by using 2.3 wt% TMAH/4 wt% NaCl developer, we demonstrated 15×15 nm2 pitched (3 Tbit/in.2) HSQ resist dot arrays with a dot size of < 10 nm.

Published

2013

47. Coercive Force Enhanced by Nanometer-Sizing of Magnetic Column and Measured by X-Ray Magnetic Circular Dichroism (XMCD)

Author

Takashi Akahane, Hiroshi Sakurai, Jun Ariake, Naoki Honda, Zulfakri bin Mohamad, You Yin, Motohiro Suzuki, Yuji Kondo, and Sumio Hosaka

Subjects

Hysteresis, Materials science, Resist, X-ray magnetic circular dichroism, Magnetic circular dichroism, Patterned media, General Engineering, Analytical chemistry, Magnetic force microscope, Ion milling machine, Coercivity

Abstract

We have studied the possibility to form fine magnetic column arrays using 30-keV-electron beam (EB) drawing with thin calixarene resist and 200-eV-Ar ion milling, and nanometer-sizing effect of the magnetic column on the corecive force for patterned media. We achieved 20-nm-sized resist dot arrays on PtCo magnetic and thin metals layers on glass substrate. We formed fine magnetic column arrays with a diameter of 39 to 106 nm and a space of about 100 nm using the resist pattern by the 200-eV Ar ion-milling. Using the nano magnetic column arrays, the hysteresis were measured by X-ray magnetic circular dichroism (XMCD) with an energy of 11.57 keV, which corresponds to an energy edge of Pt-L3. It is clarified that a coercive force of the nanometer-sized magnetic column increased as the diameter decreased.

Published

2012

48. Material Engineering for Low Power Consumption and Multi-Level Storage in Lateral Phase-Change Memory

Author

Yu Long Zhang, Rosalena Irma Alip, You Yin, and Sumio Hosaka

Subjects

Work (thermodynamics), Materials science, business.industry, Chalcogenide, Doping, General Engineering, Electrical engineering, Process (computing), Phase-change memory, chemistry.chemical_compound, chemistry, Electrical resistivity and conductivity, Power consumption, Optoelectronics, business, Heating efficiency

Abstract

The influence of the phase-change materials on the performance of memory devices for low power consumption and multi-level storage was investigated in this work. Doping N into chalcogenide phase-change materials resulted in higher resistivity and low-response to the temperature. The former characteristic leaded to high heating efficiency for phase change via self-heating and thus reduced the power consumption to about 1/20. The latter characteristic enabled easy control of phase change process in the memory device for multi-level storage. 16 distinct resistance levels were demonstrated in our lateral device by adopting a top heater structure

Published

2012

49. High Throughput and High Accurate Micro-sieve with Tapered Apertures Fabricated by Tilt Exposing in X-ray Lithography

Author

Sumio Hosaka, Kobayashi Masashi, and Seichin Kinuta

Subjects

Sieve, Tilt (optics), Materials science, Optics, law, business.industry, Mechanical Engineering, X-ray lithography, business, Throughput (business), law.invention

Published

2012

50. Crystal Growth Suppression by N-Doping into Chalcogenide for Application to Next-Generation Phase Change Memory

Author

Sumio Hosaka and You Yin

Subjects

Materials science, business.industry, Annealing (metallurgy), Chalcogenide, Mechanical Engineering, Doping, Nanotechnology, Crystal growth, Nitride, Microstructure, Non-volatile memory, Phase-change memory, chemistry.chemical_compound, chemistry, Mechanics of Materials, Optoelectronics, General Materials Science, business

Abstract

In this work, we investigate the effect of the N-doping on microstructure and electrical properties of chalcogenide Ge2Sb2Te5(GST) films for application to multilevel-storage phase change memory (PCM). Crystal size can be markedly reduced from 16 nm to 5 nm by N-doping into GST. The crystal growth suppression is believed to be controlled by distributed fine nitride particles. The resistivity of N-GST as a function of annealing temperature exhibits a gradual change due to the crystal growth suppression. The characteristics imply that N-GST is suitable for application to multilevel-storage PCM as the next-generation nonvolatile memory.

Published

2011