Ion etching of HgCdTe: Properties, patterns and use as a method for defect studies

Іжнін, І. І.; Mynbaev, K. D.; Войцеховский, А. В.; Korotaev, A. G.; Fitsych, O. I.; Pociask-Bialy, Malgorzata

doi:10.1016/j.opelre.2017.03.007

Cited by 13 publications

(7 citation statements)

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“…The n/n + interface, marked in blue in Figure 3, has n-type conductivity; n denotes light donor-doping and n + -heavy donor-doping occurring in the vicinity of the surface area defected by ion milling. The latter is used to convert the conduction type from p to n [19]. The P + interface, marked in red, is the contact for the holes and is heavily acceptor-doped.…”

Section: Device Fabrication Methodsmentioning

confidence: 99%

Ultra-thin uncooled integrable-on-chip detector to measure wide infrared radiation residue in lithography exposure and metrology inspection tools

Jahangiri

Pawluczyk

Dąbrowski

et al. 2023

Metrology, Inspection, and Process Control XXXVII

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In modern nano-scale lithography, an essential role of the source, the illumination, and projection lenses is to deliver the precise amount of energy at a specific wavelength to the photoresist deposited on a wafer surface during exposure. Unfortunately, the source of the most advanced lithography processes may produce unwanted infrared components passing through the illumination and projection lenses and reaching the wafer surface. These infrared residues can cause local heating resulting in deformation of the optical elements and the exposed wafer, thus causing deterioration of the image quality. Some infrared spectrum components are in the band from 2 μm to 12 μm. An infrared detector that can measure only these spectral components of the exposure beam, without being affected by the much more powerful exposure spectral component, is helpful for optics diagnostic purposes and improving imaging quality. In this paper, an ultra-thin uncooled integrable-on-chip linear array infrared detector to measure the band of 2-12 μm infrared radiation is designed and fabricated based on the photovoltaic multiple junction heterostructure from VIGO Photonics, made of a HgCdTe narrow bandgap semiconductor. Features such as zero bias, low noise, and fast response, together with a wide active window, make the detector unique for use in the mid-infrared band. Besides lithography applications, the new detector can be useful in testing, inspection, and equipment using infrared sources such as: He-Ne lasers (0.6 to 4 μm), STEAM lasers (2 to 200 μm), CO2 lasers (5 to 11 μm), InGaAsP lasers (0.8 to 3 μm), and PbSnTe (3 to 20 μm) and PbSnSe (7 to 40 μm) lasers.

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Section: Device Fabrication Methodsmentioning

confidence: 99%

Ultra-thin uncooled integrable-on-chip detector to measure wide infrared radiation residue in lithography exposure and metrology inspection tools

Jahangiri

Pawluczyk

Dąbrowski

et al. 2023

Metrology, Inspection, and Process Control XXXVII

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“…Therefore, the rest of the shift (29 meV) was attributed to the BM effect, with calculations of the Fermi level shift as a result of heavy electron doping confirming its exact value. The authors of this review would like to note, though, that the shift observed by Zha et al [26,27] should not be, in fact, permanent, as electron concentration in ion-milling-induced n-type material is prone to relaxation and gradually decreases with time [29,31].…”

mentioning

confidence: 88%

“…Modulated PL spectroscopy with a step-scan FTIR spectrometer was used for the study of the so-called blue-shift in PL and photoconductivity (PC) spectra of the n-on-p MCT photodiodes fabricated with ion milling [26,27]. Ion milling or ion (plasma) etching are used in MCT technology for fabrication of n-on-p photodiode structures, as lowenergy (1 to 5 keV) ion or plasma treatment causes controllable p-to-n conductivity type conversion in p-type material [28,29]. Zha et al [26,27] reported that a sequence of PL spectra measured across a square p-n junction fabricated with ion milling showed luminescence peaks of the milled area shifting strongly to shorter wavelengths in comparison to the spectra of the initial LPE-grown p-type material.…”

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confidence: 99%

“…The main investigation tool used in that study was electrical measurements (those of the Hall coefficient and conductivity) in combination with ion etching. This etching releases HgI atoms that actively interact with existing defects and change the properties of the material [28,29,31,32]. By measuring the parameters of the material before and after the etching, as well as during the relaxation, when etching-induced defects gradually disintegrate, it is possible to obtain a considerably larger body of information about the defect structure of the material, compared with the 'standard' electrical measurements [29].…”

mentioning

confidence: 99%

“…showed that it was possible to use this technique to determine the concentration of residual donors, an important parameter of the material that could not be measured using the conventional Hall-effect measurements due to electrical compensation [81]. Moreover, by creating a HgI concentration exceeding the equilibrium value by six to seven orders of magnitude, the etching can somehow activate even neutral defects in MCT [29]. In the case of Ref.…”

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confidence: 99%

See 2 more Smart Citations

Photoluminescence in Mercury Cadmium Telluride – a Historical Retrospective. Part II: 2004–2022

Ruzhevich¹,

Mynbaev²

2022

Rev. Adv. Mater. Technol.

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This review is a second part of the work that presents a historical retrospective of the studies of photoluminescence in mercury cadmium telluride (HgCdTe), one of the most important materials of infrared photo-electronics. The second part of the review considers the results of the studies performed in 2004–2022. These studies were carried out mostly on films grown by molecular beam epitaxy and focused on the investigation of defects, especially those originating in p-type doping with mercury vacancies or arsenic atoms. Compositional uniformity and alloy fluctuations in HgCdTe were also the subjects of the studies.

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HgCdTe Device Technology

Dvoretsky

Vasiliev

Sidorov

et al. 2023

Handbook of II-VI Semiconductor-Based Sensors and Radiation Detectors

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Ion etching of HgCdTe: Properties, patterns and use as a method for defect studies

Cited by 13 publications

References 84 publications

Ultra-thin uncooled integrable-on-chip detector to measure wide infrared radiation residue in lithography exposure and metrology inspection tools

Ultra-thin uncooled integrable-on-chip detector to measure wide infrared radiation residue in lithography exposure and metrology inspection tools

Photoluminescence in Mercury Cadmium Telluride – a Historical Retrospective. Part II: 2004–2022

HgCdTe Device Technology

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