Erratum: “Carrier Density Dependences of the Superconducting Transitions in n-Type InxSn1-xTe1+y”

1974 ◽  
Vol 37 (2) ◽  
pp. 579B-579B
Author(s):  
Hidekazu Miyauchi ◽  
Tetsuo Nakajima ◽  
Eizo Kanda
Keyword(s):  
Carrier Density ◽  
Superconducting Transitions

Carrier Density Dependences of the Superconducting Transitions in n-Type InxSn1-xTe1+y

1974 ◽  
Vol 36 (6) ◽  
pp. 1705-1705 ◽  
Author(s):  
Hidekazu Miyauchi ◽  
Tetsuo Nakajima ◽  
Eizo Kanda
Keyword(s):  
Carrier Density ◽  
Superconducting Transitions

Transport and fluctuations in nonlinear-dissipative systems: role of interparticle collisions

1999 ◽  
Vol 4 ◽  
pp. 31-86 ◽  
Author(s):  
R. Katilius ◽  
A. Matulionis ◽  
R. Raguotis ◽  
I. Matulionienė
Keyword(s):  
Electric Fields ◽  
Carrier Density ◽  
Experimental Results ◽  
Dissipative Systems ◽  
Doped Semiconductors ◽  
Electron Diffusion ◽  
Electron Collisions ◽  
Electric Noise ◽  
Diffusion Phenomena

The goal of the paper is to overview contemporary theoretical and experimental research of the microwave electric noise and fluctuations of hot carriers in semiconductors, revealing sensitivity of the noise spectra to non-linearity in the applied electric field strength and, especially, in the carrier density. During the last years, investigation of electronic noise and electron diffusion phenomena in doped semiconductors was in a rapid progress. By combining analytic and Monte Carlo methods as well as the available experimental results on noise, it became possible to obtain the electron diffusion coefficients in the range of electric fields where inter-electron collisions are important and Price’s relation is not necessarily valid. Correspondingly, a special attention to the role of inter-electron collisions and of the non-linearity in the carrier density while shaping electric noise and diffusion phenomena in the non-equilibrium states will be paid. The basic and up-to-date information will be presented on methods and advances in this contemporary field - the field in which methods of non-linear analytic and computational analysis are indispensable while seeking coherent understanding and interpretation of experimental results.

2D carrier Density Mapping Using SNDM-dC/dV and dC/dz of SiC Power MOSFET

2019 ◽  
Author(s):  
Jing-jiang Yu ◽  
T. Yamaoka ◽  
T. Aiso ◽  
K. Watanabe ◽  
Y. Shikakura ◽  
...  
Keyword(s):  
Carrier Density ◽  
Environmental Control ◽  
Boundary Region ◽  
Power Mosfet ◽  
Dopant Profiling ◽  
Density Mapping ◽  
Resolution Observation ◽  
Develop Software ◽  
20 Nm ◽  
High Resolution Observation

Abstract Scanning nonlinear dielectric microscopy is continuously developed as an AFM-derived method for 2D dopant profiling of semiconductor devices. In this paper, the authors apply 2D carrier density mapping to Si and SiC and succeed a high resolution observation of the SiC planar power MOSFET. Furthermore, they develop software that combines dC/dV and dC/dz images and expresses both density and polarity in a single distribution image. The discussion provides the details of AFM experiments that were conducted using a Hitachi environmental control AFM5300E system. The results indicated that the carrier density decreases in the boundary region between n plus source and p body. The authors conclude that although the resolutions of dC/dV and dC/dz are estimated to be 20 nm or less and 30 nm or less, respectively, there is a possibility that the resolution can be further improved by using a sharpened probe.

Thermal Frequency Imaging: A New Application of Laser Voltage Imaging Applied on 40nm Technology

2011 ◽  
Author(s):  
Guillaume Celi ◽  
Sylvain Dudit ◽  
Thierry Parrassin ◽  
Philippe Perdu ◽  
Antoine Reverdy ◽  
...  
Keyword(s):  
Charge Carrier ◽  
Laser Beam ◽  
Integrated Circuit ◽  
Carrier Density ◽  
Deep Submicron ◽  
Charge Carrier Density ◽  
Voltage Imaging ◽  
A New Technique ◽  
Scan Chain

Abstract For Very Deep submicron Technologies, techniques based on the analysis of reflected laser beam properties are widely used. The Laser Voltage Imaging (LVI) technique, introduced in 2009, allows mapping frequencies through the backside of integrated circuit. In this paper, we propose a new technique based on the LVI technique to debug a scan chain related issue. We describe the method to use LVI, usually dedicated to frequency mapping of digital active parts, in a way that enables localization of resistive leakage. Origin of this signal is investigated on a 40nm case study. This signal can be properly understood when two different effects, charge carrier density variations (LVI) and thermo reflectance effect (Thermal Frequency Imaging, TFI), are taken into account.

Cyclotron Resonance in Extremely Low Carrier-Density System of Yb4As3

1997 ◽  
Vol 66 (12) ◽  
pp. 3729-3732 ◽  
Author(s):  
Hiroshi Matsui ◽  
Akira Ochiai ◽  
Hisatomo Harima ◽  
Hidekazu Aoki ◽  
Takashi Suzuki ◽  
...  
Keyword(s):  
Cyclotron Resonance ◽  
Carrier Density

scholarly journals Determination of Carrier Density and Dynamics via Magnetoelectroluminescence Spectroscopy in Resonant-Tunneling Diodes

2021 ◽  
Vol 15 (1) ◽  
Author(s):  
E.R. Cardozo de Oliveira ◽  
A. Naranjo ◽  
A. Pfenning ◽  
V. Lopez-Richard ◽  
G.E. Marques ◽  
...  
Keyword(s):  
Carrier Density ◽  
Resonant Tunneling ◽  
Resonant Tunneling Diodes ◽  
Tunneling Diodes

scholarly journals The Superconducting Critical Temperature

Symmetry ◽  
2021 ◽  
Vol 13 (5) ◽  
pp. 911
Author(s):  
Mike Guidry ◽  
Yang Sun ◽  
Lian-Ao Wu
Keyword(s):  
Critical Temperature ◽  
Dynamical Symmetry ◽  
Many Body ◽  
Unconventional Superconductors ◽  
The Many ◽  
Pair Coupling ◽  
Intrinsic Strength ◽  
Superconducting Transitions

Two principles govern the critical temperature for superconducting transitions: (1) intrinsic strength of the pair coupling and (2) the effect of the many-body environments on the efficiency of that coupling. Most discussions take into account only the former, but we argue that the properties of unconventional superconductors are governed more often by the latter, through dynamical symmetry relating to normal and superconducting states. Differentiating these effects is essential to charting a path to the highest-temperature superconductors.

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