Breakdown of Impurity States of As and Sb in Germanium at Uniaxial Compression

Baidakov, V. V.; Ermakov, V. N.; Григорьев, Н. Н.; Kolomoets, V. V.; Kudykina, T. A.

doi:10.1002/pssb.2221220259

Cited by 5 publications

(5 citation statements)

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“…Therefore, in n-Si an increase of the electron effective mass at increasing uniaxial pressure X || [111] due to the strain-induced non-parabolicity of the D 1 -valleys [8], determines the physical mechanism of the MIT in high strained degenerative crystals [9]. In germanium, a substantial increase of the electron effective mass due to L 1 -D 1 inversion of the conduction band minima [10] also leads to strain-induced MIT under the condition X || [001] [9]. In the region of the MIT, the measurements were performed on temperature dependences of the crystal resistivity at various pressure (Fig.…”

Section: Resultsmentioning

confidence: 99%

“…An essential decrease of free electrons concentration due to their localization in region of strain-induced MIT gives rise to an observable decrease of the crystal dielectric constant [2], and leads to more effective localization of electrons on the impurity atoms. In germanium, a substantial increase of the electron effective mass due to L 1 -D 1 inversion of the conduction band minima [10] also leads to strain-induced MIT under the condition X || [001] [9]. In germanium, a substantial increase of the electron effective mass due to L 1 -D 1 inversion of the conduction band minima [10] also leads to strain-induced MIT under the condition X || [001] [9].…”

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confidence: 99%

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Strain-Induced MI Transition in n-Si and n-Ge: Physical Mechanisms and Transport Phenomena

Budzulyak

Gorin

Ermakov

et al. 2001

phys. stat. sol. (b)

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The analysis of experimental data on the pressure and temperature dependences of conductivity, the current-voltage characteristics (IVC), and the pressure dependence of the activation energy in n-Si and n-Ge crystals in the region of strain-induced metal-insulator transition (MIT) is presented. A remarkable change of the effective mass of carriers in semiconductors caused by straininduced transformation of the energy band structure is the main necessary condition for realization of this kind of metal-nonmetal transition.

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Section: Resultsmentioning

confidence: 99%

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confidence: 99%

Strain-Induced MI Transition in n-Si and n-Ge: Physical Mechanisms and Transport Phenomena

Budzulyak

Gorin

Ermakov

et al. 2001

phys. stat. sol. (b)

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“…The dielectric permittivity for germanium, = 16, is well known [25]. In work [26], by analyzing the dependences of the impact ionization field on the uniaxial pressure along the crystallographic direction [100] for -Ge single crystals doped with Sb and As impurities to the concentration = = 1.8 × 10 14 cm −3 , the ionization energies of ground states for those impurities were determined provided the ( 1 − Δ 1 )-type inversion of the absolute minimum. On the basis of the method used in work [26], the authors of work [27] found the ionization energy for the ground state of P impurity with the concentration = = 1.15 × 10 14 cm −3 associated with Δ 1 -valleys.…”

Section: Results Of Numerical Calculations and Conclusionmentioning

confidence: 99%

“…In Table, the calculation results for the ionization energy of shallow-donor ground states in -Ge single crystals taking and not taking the chemical shift for those impurities into account are quoted. In order to compare the theoretical results obtained in this work with the experimental data of works [26,27], the calculations were executed for the concentrations of Sb, P, and As impurities that were used in those works. The results of calculations testify that, when changing from the 1 -model to the Δ 1 -one for the conduction band in -Ge single crystals, the ionization energies of ground states of the Sb, P, and As Ionization energies for the ground states of shallow donors in -Ge associated with Δ 1 -valleys impurities essentially increase.…”

Section: Results Of Numerical Calculations and Conclusionmentioning

confidence: 99%

Calculation of the Ground-State Ionization Energy for Shallow Donors in n-Ge Single Crystals within the ∆1-Model for the Conduction Band

Luniov¹,

Burban²,

Nazarchuk³

2015

Ukr. J. Phys.

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On the basis of the Ritz variational method, the ionization energies for the ground states of Sb, P, and As donors in-Ge single crystals are calculated in the framework of the Δ1-model for the conduction band and taking the dispersion law anisotropy and the chemical shift into account. A comparison of theoretical results with corresponding experimental data shows that the model of impurity's Coulomb potential can be used as a rough approximation only for Sb impurities in Ge, making no allowance for the chemical shift. For the P and As impurities, when the potential field of an impurity ion is not Coulombic, the calculations have to be carried out with regard for a chemical shift.

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“…In n-Ge very high uniaxial pressure ( X > 2.1 GPa) along the [OOl] direction results in a Ll-Al inversion of conduction band minima [4]. The L1-Al inversion causes a remarkable increase of the shallow donor ionization energy [5] due to major changes in band minima parameters. In degenerately doped Si and Ge these mechanisms can lead to a transition from a metallic-type to an activated electrical conductivity.…”

Section: Introductionmentioning

confidence: 99%

Metal‐Insulator Transition in Degenerately Doped Si and Ge under High Uniaxial Pressure

Baidakov¹,

Ermakov²,

Gorin³

et al. 1996

Physica Status Solidi (b)

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Strain-induced metal-insulator (MI) transitions have been observed in degenerately doped Si:Sb and Ge:Sb crystals at T = 4.2 K and for extremely high uniaxial pressures up to 5 GPa. It is shown that in both Si and Ge the transition from a metallic-type to an activated conductivity is determined by strain-induced changes of the conduction band parameters. The data obtained demonstrate that the effective mass donor approach and the scaling theory of localization describe well the MI transition phenomenona observed.

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Breakdown of Impurity States of As and Sb in Germanium at Uniaxial Compression

Cited by 5 publications

References 1 publication

Strain-Induced MI Transition in n-Si and n-Ge: Physical Mechanisms and Transport Phenomena

Strain-Induced MI Transition in n-Si and n-Ge: Physical Mechanisms and Transport Phenomena

Calculation of the Ground-State Ionization Energy for Shallow Donors in n-Ge Single Crystals within the ∆1-Model for the Conduction Band

Metal‐Insulator Transition in Degenerately Doped Si and Ge under High Uniaxial Pressure

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