Lucian Kasprzak scite author profile

Lucian Kasprzak

4Publications

40Citation Statements Received

11Citation Statements Given

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Affiliations

University of Paris-Saclay, IBM (United States), Institut Polytechnique de Paris

Publications

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Dependence of the Si-SiO2 barrier height on SiO2 thickness in MOS tunnel structures

Kasprzak

Laibowitz

Ohring

1977

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Ultrathin (10–30 Å) SiO2 layers with large interface-state densities were used as the dielectric between aluminum and degenerate silicon. The presence of interface states resulted in current-vs-voltage curves characteristic of metal-insulator-metal (MIM) tunnel structures. MIM tunneling theory was used to estimate the Si-SiO2 (φSi-SiO2) and the Al-SiO2 (φAl-SiO2) barrier heights. We found that the Si-SiO2 barrier height increased from 0.42 eV at 10 Å to 0.65 eV for 25.5 Å of SiO2 on degenerate p-type Si, and from 0.64 eV at 14 Å to 1.27 eV for 29.3 Å of SiO2 on degenerate n-type Si. The Al-SiO2 barrier height could not be consistently determined but was about 0.61±0.16 eV. A smooth transition from Schottky barrier to MOS tunnel structure was observed. The thickness dependence of φSi-SiO2 is most likely due to the recently observed 15–20-Å nonstoichiometric SiO transition region at the Si-SiO2 interface.

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Determination of distributed fixed charge in CVD-oxide and its virtual elimination by use of HCl

Gaind

Kasprzak

1979

Solid-State Electronics

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Electronic Devices

Ohring¹,

Kasprzak²

2015

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Overview OF¹⁴C release from irradiated zircaloys in geological disposal conditions

Necib¹,

Bucur

Caes³

et al. 2018

Radiocarbon

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Carbon-14 (radiocarbon,14C) is a long-lived radionuclide (5730 yr) of interest regarding the safety for the management of intermediate level wastes (ILW). The present study gives an overview of the release of14C from irradiated Zircaloy cladding in alkaline media.14C is found either in the alloy part of Zircaloy cladding due to the neutron activation of14N impurities by14N(n,p)14C reaction, or in the oxide layer (ZrO2) formed at the metal surface by the neutron activation of17O from UO2or (U-Pu)O2fuel and water from the primary circuit in the reactor by17O(n,α)14C reaction. Various irradiated and unirradiated Zircaloys have been studied. The total14C inventory has been determined both experimentally and by calculations. The results seem to be in good agreement. Leaching experiments were conducted in alkaline media for several time durations.14C was mainly released as carboxylic acids. Further, corrosion measurements were performed by using both hydrogen measurements and electrochemical measurements. The corrosion rate (CR) ranges from a few nm/yr to 100 nm/yr depending on the surface conditions and the method used for measurement. From a safety assessment point of view, the instant release fraction (IRF) was determined on irradiated Zircaloy-2. The results showed that the14C inventory in the oxide was significantly below the 20% commonly used in safety case assessments.

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Lucian Kasprzak

Dependence of the Si-SiO2 barrier height on SiO2 thickness in MOS tunnel structures

Determination of distributed fixed charge in CVD-oxide and its virtual elimination by use of HCl

Electronic Devices

Overview OF¹⁴C release from irradiated zircaloys in geological disposal conditions

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Lucian Kasprzak

Dependence of the Si-SiO2 barrier height on SiO2 thickness in MOS tunnel structures

Determination of distributed fixed charge in CVD-oxide and its virtual elimination by use of HCl

Electronic Devices

Overview OF14C release from irradiated zircaloys in geological disposal conditions

Contact Info

Product

Resources

About

Overview OF¹⁴C release from irradiated zircaloys in geological disposal conditions