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30 results on '"E. S. Gornev"'

1. Identification of knowledge sources for micro- and nanoelectronics technologies

Author

A. A. Sharapov and E. S. Gornev

Subjects
knowledge, knowledge management, nanoindustry, digital twin, Information theory, Q350-390
Abstract

Objectives. Over the past few decades, multiple knowledge management models have been developed by many research groups studying the innovation process in companies. However, these knowledge and information management models are rather general, and do not consider the dynamics and variability of technology development. This implies involving specific organizations in different types of knowledge generation activities. The paper aims to reveal the importance of a knowledge management system in micro- and nanoelectronics technologies as well as identify and systematize the sources of knowledge in the scientific and technical field.Methods. In this paper, the method for analyzing the relationship between key business indicators of the companies is applied. The results are then represented in a causal loop diagram. The stakeholder analysis method is also used here.Results. Three relevant trends in developing the knowledge management system for knowledge-intensive enterprises involved in micro- and nanoelectronics technologies are identified with respect to the social, commercial, and scientific and technical aspects in research organizations. The key sources of knowledge on micro- and nanoelectronics technologies include universities, institutions of the Russian Academy of Sciences, industry-specific institutions, customers, manufacturers, and consumers. Also, the authors consider digital twins to be a promising source of knowledge on micro- and nanoelectronics technologies.Conclusions. The analysis of the technology life cycle curve using the example of micro- and nanoelectronics allows correlating single stages of this life cycle with specific activities during which new knowledge is generated. These activities include fundamental and applied research, requirements management, implementation in manufacturing, and operation analysis. For microelectronics, they correspond to the areas of emergence, peak of inflated expectations, trough of disillusionment, slope of enlightenment, and plateau of productivity on the technology life cycle curve.

Published
2022
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2. A discussion of S.M. Krylov’s book «Neocybernetics» (2008)

Author

E. S. Gornev and I. V. Matyushkin

Subjects
general technology theory, formal technology, neocybernetics, finite-state machines, synergetics, complexity, Information theory, Q350-390
Abstract

A comparative analysis of the “general formal technology (GFT)” by S. M. Krylov is carried out in the context of the published book of the authors “General Theory of Technologies and Microelectronics” (2020) and on the basis of his work of 2008. Despite the abstractness of the algebraic-algorithmic approach, Krylov offers a number of specific constructions that are in demand during the fourth industrial revolution and for the future development of industrial technology in nanoelectronics and biotechnology. Industrial technology is considered as a complex object of management, i.e., it is the object of study of the new discipline «neocybernetics». Although the foundations of this approach were laid in 1930s–1960s within the framework of logical and mathematical research, its expansion is inevitable when using self-organization processes to obtain functional supramolecular structures in technological processes of nanoelectronics (for example, DNA origami engineering). The issues of complexity quantification for a product itself (structure) and its manufacturing technology, or, according to Krylov, the complexity of technological automata, have become even more relevant than before. The theoretical issues of self-organization, the development of artificial life, and the creation of self-replicating technical systems also seem promising for solution. In our opinion, Krylov’s formal technology is an important “block” in the advancement of general theory of technologies (GTT) useful for describing the technology at the levels: operation, route, and process. We would like to encourage a wide range of readers to study the book and form a steady interest in general technological issues. The value of GTT and GFT extends beyond the sphere of technology and, in a narrow sense, factory production, but also into the area of «fine» regulation of physiology in biological objects and pharmacy, as well as into the problem field of cognitive sciences, psychology, and education. when the focus is on the personality structure and heterogeneous constructs «floating in the sea of the unconscious». Both S.M. Krylov and we demonstrate that the issues of industrial technology cannot be considered without abstract formalization and without reference to philosophy.

Published
2021
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4. Automated Testing Algorithm for the Improvement of 1T1R ReRAM Endurance

Author

A. V. Shadrin, Ekaterina Kondratyuk, Anastasia Chouprik, E. S. Gornev, Roman V. Kirtaev, Dmitrii Negrov, Maksim Zhuk, and Yury Matveyev

Subjects
Non-volatile memory, Dielectric strength, Memory cell, Computer science, Logic gate, Scalability, Electrical and Electronic Engineering, Data retention, Algorithm, Electronic, Optical and Magnetic Materials, Resistive random-access memory, Voltage
Abstract

One of the most attractive types of novel nonvolatile memory concepts is resistive random access memory (ReRAM) based on a reversible (“soft”) dielectric breakdown effect. The interest is caused by combining simple architecture with promising performance: excellent scalability, nanosecond speed, long data retention, and low power consumption. However, the commercialization of this type of memory is retarded mainly due to serious drawbacks: high cell-to-cell variability of switching parameters and limited endurance related to the ionic origin of resistive switching effect coupled with the problem of voltage overshooting. In particular, these issues complicate the examination of test samples because during the lifespan of memory cells, and the permanent reselection of test switching parameters is required. This challenge can be overcome by developing a measurement technique that combines careful testing of every single structure and the ability to test a large number of test structures. As such a technique, we propose an automated testing algorithm that automatically avoids voltage overshooting and provides an effective way of characterization of cell-to-cell and cycle-to-cycle variability. It includes all stages of ReRAM cell operation, specifically electroforming, dc switching, and endurance testing in the pulsed mode. The developed technique allows on-the-fly restoring of the memory window in case of its degradation, making it possible to better understand the potential of the material stacks of the memory cell.

Published
2021

5. Study of the Plasma Resistance of a High Resolution e-Beam Resist HSQ for Prototyping Nanoelectronic Devices

Author

A. V. Shishlyannikov, A. A. Tatarintsev, E. S. Gornev, Konstantin V. Rudenko, A. V. Miakonkikh, and V. O. Kuzmenko

Subjects
Materials science, Nanostructure, Silicon, business.industry, chemistry.chemical_element, Dielectric, Condensed Matter Physics, Electronic, Optical and Magnetic Materials, Monocrystalline silicon, Resist, Nanoelectronics, chemistry, Materials Chemistry, Optoelectronics, Nanometre, Electrical and Electronic Engineering, Reactive-ion etching, business
Abstract

The selectivity of the reactive ion etching of functional materials included in the device structures of nanoelectronics with respect to the mask of a negative e-beam resist based on hydrogen-silsesquioxane (HSQ) is studied. The formation of nanostructures with sub-50-nm critical dimensions under the HSQ mask is studied for a number of materials: monocrystalline silicon, metallic Ta layers, dielectric SiO2 layers, Al2O3, HfO2, Si3N4, and low-k porous dielectric based on organosilicate glass (OSG) on silicon substrates. It is established that HSQ resist masks can be used to manufacture prototypes of micro- and nanoelectronic devices with topological dimensions up to 10 nanometers using a wide range of materials, including creating structures with relatively high aspect ratios with an absolute thickness of the layers of functional materials of tens of nanometers.

Published
2021

6. Impact of the Atomic Layer-Deposited Ru Electrode Surface Morphology on Resistive Switching Properties of TaOx-Based Memory Structures

Author

Aleksandra A Koroleva, Aleksandr S. Slavich, E. V. Korostylev, Roman R. Khakimov, Anastasia Chouprik, Cheol Seong Hwang, Andrey M. Markeev, E. S. Gornev, and A. G. Chernikova

Subjects
Atomic layer deposition, Materials science, chemistry, Electrode, Surface roughness, chemistry.chemical_element, General Materials Science, Conductive atomic force microscopy, Surface finish, Composite material, Tin, Order of magnitude, Resistive random-access memory
Abstract

Resistive switching (RS) device behavior is highly dependent on both insulator and electrode material properties. In particular, the bottom electrode (BE) surface morphology can strongly affect RS characteristics. In this work, Ru films with different thicknesses grown on a TiN layer by radical-enhanced atomic layer deposition (REALD) are used as an inert BE in TaOx-based RS structures. The REALD Ru surface roughness is found to increase by more than 1 order of magnitude with the increase in the reaction cycle number. Simultaneously, a wide range of RS parameters, such as switching voltage, resistance both in low and high resistance states, endurance, and so forth, monotonically change. A simplified model is proposed to explain the linkage between RS properties and roughness of the Ru surface. The field distribution was simulated based on the observed surface morphologies, and the resulting conducting filament formation was anticipated based on the local field enhancement. Conductive atomic force microscopy confirmed the theoretical expectations.

Published
2020

7. Area selective grafting of siloxane molecules on low-k dielectric with respect to copper surface

Author

E. S. Gornev, Askar Rezvanov, Silvia Armini, and J.-F. de Marneffe

Subjects
Copper oxide, Materials science, General Physics and Astronomy, chemistry.chemical_element, Low-k dielectric, 02 engineering and technology, Surfaces and Interfaces, General Chemistry, Dielectric, 010402 general chemistry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 01 natural sciences, Copper, 0104 chemical sciences, Surfaces, Coatings and Films, chemistry.chemical_compound, chemistry, Chemical engineering, Desorption, Siloxane, Diethylenetriamine, Monolayer, 0210 nano-technology
Abstract

The selective pore sealing of porous organosilica glass (OSG k = 2.4) dielectrics by self-assembled monolayers (SAM) is studied, using three precursors: (3-trimethoxysilylpropyl) diethylenetriamine (DETA), 3-aminopropyltrimethoxysilane (APTMS) and trimethylmethoxysilane (TMMS), combined with a citric-acid based metal surface cleaning. The sealing effectiveness of the SAM films derived from amino-containing precursors is demonstrated. The selectivity of the SAM grafting to the dielectric surface with respect to the copper surface is investigated. Post-SAM deposition cleaning in citric acid-based solution leads to desorption of the amino-containing precursors from the copper surface while the low-k surface remains partially covered and sealed. On copper, the SAM cleaning process occurs through interface copper oxide removal, by means of a lift-off mechanisms.

Published
2019

8. Multilevel Bipolar Memristor Model Considering Deviations of Switching Parameters in the Verilog-A Language

Author

E. S. Gornev and G. S. Teplov

Subjects
010302 applied physics, Physics, Resistive touchscreen, 02 engineering and technology, Memristor, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Topology, Thermal conduction, 01 natural sciences, Electronic, Optical and Magnetic Materials, law.invention, Variation (linguistics), law, Verilog-A, 0103 physical sciences, Materials Chemistry, State (computer science), Electrical and Electronic Engineering, 0210 nano-technology
Abstract

We describe a bipolar memristor in the Verilog-A language. The proposed model concepts take into account the following parameter deviations in the memristor switching between conduction states: the variation of the conduction parameters in the highly resistive and low-resistance state, the switching threshold variations, and the variation of the number of switching cycles.

Published
2019

9. On-Chip TaOx-Based Non-volatile Resistive Memory for in vitro Neurointerfaces

Author

Igor A. Karateev, Gennady Krasnikov, Dmitiry Negrov, Yury Matveyev, Maksim Zhuk, Andrei Zenkevich, Sergei Zarubin, and E. S. Gornev

Subjects
non-volatile memory, Materials science, neural tissue, in vitro neurointerfaces, 02 engineering and technology, law.invention, lcsh:RC321-571, 03 medical and health sciences, 0302 clinical medicine, law, ddc:610, Electronics, back-end-of-line process, lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry, Original Research, business.industry, high-density microelectrode arrays, resistive switching, Reading (computer), General Neuroscience, Transistor, 1T-1R device, 021001 nanoscience & nanotechnology, Resistive random-access memory, Power (physics), Non-volatile memory, CMOS, Optoelectronics, 0210 nano-technology, business, 030217 neurology & neurosurgery, Voltage, Neuroscience, tantalum oxide
Abstract

Frontiers in neuroscience 14, 94 (2020). doi:10.3389/fnins.2020.00094, The development of highly integrated electrophysiological devices working in directcontact with living neuron tissue opens new exciting prospects in the fields ofneurophysiology and medicine, but imposes tight requirements on the power dissipatedby electronics. On-chip preprocessing of neuronal signals can substantially decrease thepower dissipated by external data interfaces, and the addition of embedded non-volatilememory would significantly improve the performance of a co-processor in real-timeprocessing of the incoming information stream from the neuron tissue. Here, we evaluatethe parameters of TaOx-based resistive switching (RS) memory devices produced bymagnetron sputtering technique and integrated with the 180-nm CMOS field-effecttransistors as possible candidates for on-chip memory in the hybrid neurointerfaceunder development. The electrical parameters of the optimized one-transistor–oneresistor (1T-1R) devices, such as the switching voltage (approx. ±1 V), uniformity ofthe Roff/Ron ratio (∼10), read/write speed (, Published by Frontiers Research Foundation, Lausanne

Published
2020

10. Investigation of the Process of Plasma Through Etching of HkMG Stack of Nanotransistor with a 32-nm Critical Dimension

Author

A. V. Myakon’kikh, O. P. Guschin, A. A. Tatarintsev, K. Yu. Kuvaev, E. S. Gornev, Konstantin V. Rudenko, and N. A. Orlikovskii

Subjects
010302 applied physics, Plasma etching, Materials science, Silicon, business.industry, chemistry.chemical_element, 02 engineering and technology, Nitride, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 01 natural sciences, Hafnium, Electronic, Optical and Magnetic Materials, chemistry.chemical_compound, chemistry, Tantalum nitride, Stack (abstract data type), Resist, Etching (microfabrication), 0103 physical sciences, Materials Chemistry, Optoelectronics, Electrical and Electronic Engineering, business, 0210 nano-technology
Abstract

The processes of plasma etching of stack layers to form a structure of a metal gate of a nanoscale transistor with a dielectric with a high level of dielectric permittivity (HkMG) are investigated. A resist mask formed by fine-resolution electron-beam lithography is used in the etching. The plasma etching of the stack’s layers is carried out in one technological etching cycle without a vacuum break. The sequential anisotropic etching process of the stack of polysilicon, tantalum nitride, and hafnium nitride, as well as the etching process of the gate insulator based on hafnium oxide with a high degree of selectivity in relation to the underlying crystalline silicon, which guarantees the complete removal of the layer of hafnium oxide and the minimal loss of the silicon layer (not more than 0.5 nm), is investigated.

Published
2018

11. Influence of the electromigration on the characteristics of electrochemical microsystems

Author

V. O. Kuzmenko, V. G. Krishtop, S. N. Zhabin, T. V. Krishtop, E. S. Gornev, D. A. Zhevnenko, and Pavel V. Dudkin

Subjects
Total harmonic distortion, Materials science, business.industry, Flow (psychology), Condensed Matter::Mesoscopic Systems and Quantum Hall Effect, Electrochemistry, Electromigration, Transfer function, Nonlinear system, Planar, Microsystem, Optoelectronics, Physics::Chemical Physics, business
Abstract

The electromigration influence on main characteristics of planar electrochemical systems with difference parameters was studied. The transporting processes are simulated, current-voltage characteristic, transfer function and THD were calculated, and quantitative estimates of the magnitude of the asymmetric electromigration flow and its effect on the nonlinearity coefficient of the system are obtained.

Published
2019

13. Integration of functional elements of resistive nonvolative memory with 1T-1R topology

Author

I. V. Kiseleva, Andrei Zenkevich, Oleg M. Orlov, G. Ya. Krasnikov, D. V. Negrov, Ekaterina Kondratyuk, Roman V. Kirtaev, A. V. Shadrin, and E. S. Gornev

Subjects
Materials science, Topology (electrical circuits), Nanotechnology, 02 engineering and technology, 01 natural sciences, law.invention, Back end of line, law, 0103 physical sciences, Hardware_INTEGRATEDCIRCUITS, Materials Chemistry, Electrical and Electronic Engineering, 010302 applied physics, Resistive touchscreen, business.industry, Transistor, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Electronic, Optical and Magnetic Materials, Resistive random-access memory, CMOS, Optoelectronics, Node (circuits), 0210 nano-technology, business, Voltage
Abstract

The issues related to the integration of functional elements of ReRAM memory based on resistive Pt/HfO2/TiN structures with transistors fabricated by CMOS technology (0.18 μm node) are discussed when placing the memory cells in metallization layers. It is shown that the formation of a ReRAM stack can be organized as the “back end of line” (BEOL) process. The possibility is demonstrated of writing information in fabricated 1T-1R cells at the given levels of current determined by the voltage on the transistor, which allows one to choose the required values of resistance for the ON and OFF states. The presence of a transistor makes it possible to limit the power that is scattered in a resistance-switchable structure, and makes its parameters virtually insensitive to changes in the voltage of writing. The latter circumstance makes it possible to use the same recording voltage for all devices, which makes the problem of reproducing the values for different cells in an array less acute.

Published
2016

14. Investigation of the properties and manufacturing features of nonvolatile FRAM memory based on atomic layer deposition

Author

R. A. Izmaylov, A. G. Chernikova, Maxim Spiridonov, Andrei Zenkevich, Andrey M. Markeev, E. S. Gornev, and Oleg M. Orlov

Subjects
010302 applied physics, Random access memory, Materials science, Nanotechnology, 02 engineering and technology, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 01 natural sciences, Ferroelectricity, Electronic, Optical and Magnetic Materials, Hafnium oxide, Non-volatile memory, Atomic layer deposition, 0103 physical sciences, Materials Chemistry, Electrical and Electronic Engineering, 0210 nano-technology, Material properties, Scaling, Nanoscopic scale
Abstract

The structural and electrical properties of materials based on hafnium oxide grown by atomic layer deposition (ALD) are analyzed. The possibility and prospects of the use of their nanoscale films in nonvolatile memory are considered. The possibility of scaling Ferroelectric random access memory (FRAM) to subμm dimensions while preserving the ferroelectric properties is shown.

Published
2016

15. Grounds and problem statement for software complex for photolithography optimization for minimization of losses in optical structures of photonic integrated circuits

Author

Evgeniy Shamin, I D Skuratov, A A Sharapov, and E S Gornev

Subjects
Software, Computer science, business.industry, law, Photonic integrated circuit, Electronic engineering, Problem statement, Minification, Photolithography, business, law.invention
Abstract

The losses in optical components are the key obstacle in development of photonic integrated circuits (PIC). This makes the developers to include additional signal gain elements into the optical scheme. One of the major and optimizable factors of signal loss is the sidewall roughness of the optical components. After analysis of factors causing the line-edge roughness (LER), we developed the basic model of the roughness emerging process during forming of photolithography nanostructures. We proposed an approach to optimize the photolithography process in order to minimize the optical losses in fabricated optical structures. The software complex on the basis of this approach is currently under development.

Published
2020

16. Formation of field-emission emitters by microwave plasma-chemical synthesis of nanocarbon structures

Author

V. P. Timoshenkov, R. K. Yafarov, A. S. Timoshenkov, Sergey P. Timoshenkov, E. S. Gornev, and S. N. Orlov

Subjects
010302 applied physics, Materials science, business.industry, Material properties of diamond, Diamond, Nanotechnology, 02 engineering and technology, engineering.material, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 01 natural sciences, Atomic and Molecular Physics, and Optics, Ion source, Electronic, Optical and Magnetic Materials, Condensed Matter::Materials Science, Field electron emission, Carbon film, 0103 physical sciences, engineering, Optoelectronics, Graphite, 0210 nano-technology, business, Current density, Diode
Abstract

A nanocarbon-emitter technology for integrated field-emission elements has been developed. The modes in which various carbon film structures of diamond, graphite, and graphene-like types are produced were determined. The low-temperature method of obtaining ultradispersed diamonds was examined. It is shown that the high-emission properties of nanodiamond-graphite emitters result from the self-organization of diamond nanocrystals in a graphite film in the course of deposition from ethanol vapor at low pressure with the use of a strongly nonequilibrium microwave plasma. The following parameters of integrated field-emission diodes were obtained: emission threshold of 2.5 V/μm and emission current density of 1.75 A/cm2. The highest current density of more than 20 A/cm2 was obtained in a study of blade-type emitters.

Published
2016

17. Resistive switching in TiN/Hf x Al1 − x O y /HfO2/TiN and TiN/HfO2/Ti/TiN structures

Author

Oleg M. Orlov, E. S. Gornev, A. V. Shadrin, S. A. Morozov, A. V. Zablotskii, and S. A. Zaitsev

Subjects
Materials science, biology, Doping, Oxide, chemistry.chemical_element, Condensed Matter Physics, Hafnia, biology.organism_classification, Electronic, Optical and Magnetic Materials, Atomic layer deposition, chemistry.chemical_compound, Chemical engineering, chemistry, Aluminium, Materials Chemistry, Electrical and Electronic Engineering, Tin, Layer (electronics), Titanium
Abstract

The memristor metal-oxide-metal structures involving the layers of stoichiometric hafnia and nonstoichiometric hafnia doped with aluminum, as well as the metal-oxide-extracting metal layer structures involving the layers of hafnia and titanium, are fabricated. The oxide layers are coated using the atomic layer deposition. The resistive switching parameters of the structures are determined.

Published
2014

18. Nonvolatile memory cells based on the effect of resistive switching in depth-graded ternary Hf x Al1 − x O y oxide films

Author

A. A. Chuprik, Andrey S. Baturin, Yu.Yu. Lebedinskii, K. Bulakh, Artur A. Kuzin, K. V. Egorov, S. A. Zaitsev, D. V. Negrov, A. V. Zablotskii, Andrey M. Markeev, E. S. Gornev, and Oleg M. Orlov

Subjects
Materials science, business.industry, Oxide, Condensed Matter Physics, Flash memory, Electronic, Optical and Magnetic Materials, Non-volatile memory, Phase-change memory, Atomic layer deposition, chemistry.chemical_compound, chemistry, Materials Chemistry, Optoelectronics, Electrical and Electronic Engineering, business, Ternary operation, Reset (computing), Voltage
Abstract

A nonvolatile memory cell prototype based on the effect of resistive switching in thin Hf x Al1 − x O y oxide films grown by atomic layer deposition (ALD) with a Al depth-graded profile has been developed. This prototype imitates the arrangement of memory cells between the metallization layers of integral circuits. The obtained results are much superior to the parameters of conventional flash memory cells in increasing the reset speed and decreasing the reset voltage.

Published
2014

19. The simulation model of planar electrochemical transducer

Author

Sergey S. Vergeles, D. V. Tereshonok, D. A. Zhevnenko, V. G. Krishtop, T. V. Krishtop, and E. S. Gornev

Subjects
Materials science, business.industry, Pressure sensor, Transfer function, Signal, Transducer, Planar, Electronic engineering, Optoelectronics, Microelectronics, Sensitivity (control systems), Physics::Chemical Physics, Electric current, business
Abstract

Planar electrochemical systems are very perspective to build modern motion and pressure sensors. Planar microelectronic technology is successfully used for electrochemical transducer of motion parameters. These systems are characterized by an exceptionally high sensitivity towards mechanic exposure due to high rate of conversion of the mechanic signal to electric current. In this work, we have developed a mathematical model of this planar electrochemical system, which detects the mechanical signals. We simulate the processes of mass and charge transfer in planar electrochemical transducer and calculated its transfer function with different geometrical parameters of the system.

Published
2016

20. Cellular-automata model of oxygen plasma impact on porous low-K dielectric

Author

Oleg P. Gutshin, Askar Rezvanov, E. S. Gornev, and Igor Matyushkin

Subjects
010302 applied physics, Work (thermodynamics), Materials science, Thermodynamics, Low-k dielectric, Nanotechnology, 02 engineering and technology, Radius, Dielectric, 021001 nanoscience & nanotechnology, Curvature, 01 natural sciences, Cellular automaton, 0103 physical sciences, Cylinder, 0210 nano-technology, Porosity
Abstract

Cellular-automata model of oxygen plasma influence on the integral properties of porous low-K dielectric is studied. The present work investigates the imitative simulation of this process. In our model we consider one isolated pore, which is simulated by cylinder with length L=200 nm and radius 1 nm ignoring the curvature factor. The simulation was performed for 2 million automata steps that correspond to 2 seconds in the real process time. Extrapolating the data to the longer time shows that more and more •CH 3 groups will be replaced by the •OH groups, and over time almost all methyl groups will leave the pore surface (there is not more than 20% of the initial methyl groups amount on the first low-K dielectric 40nm after 2 seconds simulation).

Published
2016

21. The planar silicon-based microelectronic technology for electrochemical transducers

Author

V. G. Popov, V. G. Krishtop, E. S. Gornev, A. N. Dolgov, Ivan Vladimirovich Egorov, A. V. Novikov, and A. E. Egorchikov

Subjects
Materials science, Silicon, business.industry, Electrical engineering, Geophone, chemistry.chemical_element, Chip, Accelerometer, Acceleration, Planar, Transducer, chemistry, Optoelectronics, Microelectronics, business
Abstract

We have developed the new technology for production of sensitive modules for electrochemical sensors of pressure and acceleration. The technology is applicable for mass production and scalable for high-volume production. In this work we demonstrate the new sensing module for electrochemical motion sensors, and its possibility of applying in geophones. We fabricated prototypes of electrochemical planar transducer chips, produced a laboratory prototype of a geophone based on our planar transducer chip, and tested them. This paper presents the preliminary results of the tests.

Published
2016

23. Investigation of emission properties of vacuum diodes with nanodiamond-graphite emitters

Author

S. N. Orlov, R. K. Yafarov, Sergey P. Timoshenkov, A. S. Timoshenkov, V. P. Timoshenkov, and E. S. Gornev

Subjects
Materials science, business.industry, Cathode, law.invention, Threshold voltage, Field electron emission, law, Microelectronics, Optoelectronics, Wafer, business, Current density, Diode, Common emitter
Abstract

The aim of the work was to study the effect of various microelectronic structural and technological implementations to improve the field emission properties of the nano-carbon emitters. The field emission properties of vacuum diodes with nanodiamond-graphite emitters of different geometric shapes was researched. The nanodiamond-graphite layers deposition were carried out from ethanol vapor at low pressure using microwave plasma. Three series of experiments were studied. Researching of emission currents with flat cathodes on silicon wafer coated by nanodiamond-graphite layer were done in first series of experiments. In the second series of experiments, the electrical parameters of integrated field emission diodes with flat nanodiamond-graphite emitters was studied. In the third series of experiments, the electrical parameters of field emission with flat nanodiamond-graphite formed as a micro-sized needles or blades were studied. Vacuum emission studies were done at temperature 300K and pressure 1 × 10 -6 Torr. Threshold voltage from10-50V per micron and current density about 0.2 A/cm 2 were obtained in the first series of experiments. In the second and third series of experiments, a threshold voltage from 1 to 10V/ μm and current density of 1.75 A/cm 2 were displayed. The greatest current density more than 20 A/cm 2 was obtained using a blade-type emitter.

Published
2015

24. Low-k protection from F radicals and VUV photons using a multilayer pore grafting approach

Author

N. Hacker, I. Clemente, S. Klimin, Dmitry Lopaev, K. A. Kurchikov, A I Zotovich, A. V. Miakonkikh, E. S. Gornev, Liping Zhang, S M Zyryanov, R. Chanson, Konstantin I. Maslakov, and Askar Rezvanov

Subjects
010302 applied physics, chemistry.chemical_classification, Materials science, Acoustics and Ultrasonics, Radical, 02 engineering and technology, Polymer, Plasma, Atmospheric temperature range, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Photochemistry, Grafting, 01 natural sciences, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, chemistry, Etching (microfabrication), 0103 physical sciences, 0210 nano-technology, Porosity, Deposition (law)
Abstract

Polymer grafting was studied in porous low-k SiCOH films as a protection against plasma damage. Pores of low-k films were covered by a plasma damage management polymer. A multistep deposition approach was applied to increase the polymer layer thickness that helped avoid pore stuffing, nonuniform deposition and polymer overburden. To study polymer protection, low-k films were exposed to F radicals and VUV photons, separately and simultaneously, at temperatures from −45 °C to +10 °C. Effective polymer protection at room temperatures was demonstrated. Lowering the temperature decreases degradation by F radicals while VUV damage, which is temperature independent, became dominant. Low-k damage protection was also significant under simultaneous exposure to F radicals and VUV photons. In the tested temperature range damage under simultaneous exposure to F radicals and VUV photons was higher than the sum of separate F and VUV damage due to a synergistic effect. To decrease the material k-value after etching, the polymer was removed from the pore walls using UV cure. It was shown that almost complete polymer removal was achieved after UV treatment. The described approach was applied to low-k etching in RF CCP CF4, CF4/Ar plasmas and exposure to Ar plasma. Significant improvement of the film k-value after the plasma treatment was confirmed.

Published
2018

25. Diffraction ellipsometric measurement of step height on wafer surfaces

Author

E. S. Lonskii and E. S. Gornev

Subjects
Wavefront, Diffraction, Materials science, business.industry, Phase (waves), Step height, Physics::Optics, Photodetector, Condensed Matter Physics, Electronic, Optical and Magnetic Materials, Amplitude, Optics, Materials Chemistry, Physics::Accelerator Physics, Wafer, Electrical and Electronic Engineering, business, Beam (structure)
Abstract

A diffraction-ellipsometry method is described for determining step height on a homogeneous material or an arbitrary multilayer. It consists in measuring ellipsometric parameters for individual beams reflected from the respective sides of a step and for a combined beam obtained from the two reflected beams, with the step height calculated from the measured data by a specially designed algorithm. With multilayers, the ellipsometric parameters are also to be measured with the specimen immersed in a suitable liquid. Beam combining is performed by a special device, which is also designed to change the amplitude and phase of each beam by specific amounts. Care is taken to make the respective wave fronts of the reflected beams parallel on the photodetector.

Published
2005

26. SEM Linear Measurement in a Wide Magnification Range

Author

A. V. Rakov, Ch. P. Volk, E. S. Gornev, Yu. V. Ozerin, Yu. I. Plotnikov, and Yu. A. Novikov

Subjects
Optics, Materials science, business.industry, Materials Chemistry, Calibration, Range (statistics), Magnification, Linear measurement, Electrical and Electronic Engineering, Condensed Matter Physics, business, Electronic, Optical and Magnetic Materials
Abstract

A method of SEM linear measurement is proposed in which the reference marker displayed on the screen is used as a standard. The method works in a wide range of magnification without magnification calibration. Calibration of the marker against the MShPS-2.0K linear standard is described. The characteristics of the marker are investigated as functions of scanning range and declared effective marker length for the CamScan S-4 model of SEM. The maximum allowable calibration interval is determined for this SEM.

Published
2004

27. [Untitled]

Author

A. V. Rakov, Yu. V. Ozerin, A. M. Prokhorov, Yu. A. Novikov, Yu. I. Plotnikov, E. S. Gornev, and Ch. P. Volk

Subjects
Surface (mathematics), Materials science, business.industry, Atomic force microscopy, Nanotechnology, Condensed Matter Physics, Electronic, Optical and Magnetic Materials, Surface pattern, Optics, Dimensional metrology, Materials Chemistry, Range (statistics), Calibration, Microelectronics, Electrical and Electronic Engineering, business
Abstract

Linear standards for the calibration of SEMs and AFMs are reviewed. Requirements to a surface pattern designed to serve as a universal standard for the above purpose are defined. A trapezoidal pitch structure is proposed, in which the sidewalls of basic units essentially make a large angle with the normal to the surface. Its uses in SEM–AFM dimensional metrology are considered. A new, universal standard implementing the structure is described. Its certification is briefly reported. SEM and AFM experiments with the standard are presented.

Published
2002

28. [Untitled]

Author

A. V. Rakov, Yu. A. Novikov, Yu. I. Plotnikov, and E. S. Gornev

Subjects
Very-large-scale integration, Scanning Hall probe microscope, Nanostructure, Cantilever, Materials science, business.industry, Applied Mathematics, Gauge (firearms), Optics, Computer Science::Systems and Control, Calibration, Magnetic force microscope, Geometric modeling, business, Instrumentation
Abstract

A geometric model of a scanning force microscope (atomic force microscope) (SFM) cantilever with micro- and nanostructures is considered. A linear gauge is proposed for SFM calibration and for definition of the SFM probe parameters. SEM and SFM methods of measuring submicrometer dimensions of relief structures are compared.

Published
2001

29. SEM Linear Measurement in a Wide Magnification Range.

Author

Ch. P. Volk, E. S. Gornev, Yu. A. Novikov, Yu. V. Ozerin, Yu. I. Plotnikov, and A. V. Rakov

Abstract

A method of SEM linear measurement is proposed in which the reference marker displayed on the screen is used as a standard. The method works in a wide range of magnification without magnification calibration. Calibration of the marker against the MShPS-2.0K linear standard is described. The characteristics of the marker are investigated as functions of scanning range and declared effective marker length for the CamScan S-4 model of SEM. The maximum allowable calibration interval is determined for this SEM. [ABSTRACT FROM AUTHOR]

Published
2004

30. Tunnel current features caused by defect assisted process in resonant-tunnelling structures

Author

Witold Dobrowolski, L. N. Kravchenko, B. A. Glavin, A. Mąkosa, Alexander Belyaev, Svetlana Vitusevich, R. V. Konakova, and E. S. Gornev

Subjects
Materials science, business.industry, Doping, General Physics and Astronomy, Resonance, Biasing, Condensed Matter::Mesoscopic Systems and Quantum Hall Effect, Capacitance, Optoelectronics, Electric potential, business, Layer (electronics), Quantum tunnelling, Common emitter
Abstract

Practically, all resonant-tunnelling devices contain as their important part an undoped spacer layer separating a heavily-doped layer from the barrier. Including the spacer layer into the structure has several good points. It permits, for instance, to decrease the device capacitance, to prevent impurity diffusion into the active part of the device, to eliminate an effect of the long-range Coulomb potential on the tunnelling, and thus, to improve the current-voltage characteristics of the device. however, a thick spacer layer is also a drawback which can essentially affect the transport properties in the injector. Actually, owing to a light doping in a close vicinity of the emitter barrier, an applied bias voltage creates an accumulation layer. Generally, the presence of the accumulation layer makes the tunnelling dynamics worse, because the recharging processes which occur in this layer are slow as compared with the tunnelling time thus giving rise to an extra frequency cut-off. The physical processes occurring in the injector part of device are still of interest as being of a large significance for the device operation. In this work we grew a structure whose composition was chosen so as to obtain the flat band regime in the emitter spacer under resonance condition. High

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