Research output: Contribution to journal › Conference article › peer-review
Ultra-high vacuum formation of silver films for light-emitting tunnel junctions. / Arkhipov, Alexander V.; Samusev, Anton K.; Mukhin, Ivan S.; Shkoldin, Vitaliy A.; Lebedev, Denis V.; Permyakov, Dmitry V.; Petukhov, Anatoliy E.; Golubok, Alexander O.
In: НАУЧНО-ТЕХНИЧЕСКИЕ ВЕДОМОСТИ САНКТ-ПЕТЕРБУРГСКОГО ГОСУДАРСТВЕННОГО ПОЛИТЕХНИЧЕСКОГО УНИВЕРСИТЕТА. ФИЗИКО-МАТЕМАТИЧЕСКИЕ НАУКИ, Vol. 15, No. 3.2, 2022, p. 31-34.Research output: Contribution to journal › Conference article › peer-review
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TY - JOUR
T1 - Ultra-high vacuum formation of silver films for light-emitting tunnel junctions
AU - Arkhipov, Alexander V.
AU - Samusev, Anton K.
AU - Mukhin, Ivan S.
AU - Shkoldin, Vitaliy A.
AU - Lebedev, Denis V.
AU - Permyakov, Dmitry V.
AU - Petukhov, Anatoliy E.
AU - Golubok, Alexander O.
PY - 2022
Y1 - 2022
N2 - Integrated photonics requires compact electrically driven sources of optical radiation for the use in high-performance integrated circuits with optical interconnections in a chip. Light-emitting tunnel junctions represent a promising option of such nanosized light sources, even if their present quantum efficiency is insufficient for practical implementation. We propose a technique for fabrication of such junctions by ultrahigh vacuum forming of thin silver films. Testing showed a high quality and high optical response of the produced films. Such films can serve as substrates for more complicated tunnel junction structures with yet higher quantum efficiency.
AB - Integrated photonics requires compact electrically driven sources of optical radiation for the use in high-performance integrated circuits with optical interconnections in a chip. Light-emitting tunnel junctions represent a promising option of such nanosized light sources, even if their present quantum efficiency is insufficient for practical implementation. We propose a technique for fabrication of such junctions by ultrahigh vacuum forming of thin silver films. Testing showed a high quality and high optical response of the produced films. Such films can serve as substrates for more complicated tunnel junction structures with yet higher quantum efficiency.
KW - scanning tunneling microscopy
KW - tunnel contact
KW - emission from a tunnel contact
KW - silver film
KW - photonics
KW - ultrahigh vacuum
U2 - 10.18721/JPM.153.205
DO - 10.18721/JPM.153.205
M3 - статья в журнале по материалам конференции
VL - 15
SP - 31
EP - 34
JO - НАУЧНО-ТЕХНИЧЕСКИЕ ВЕДОМОСТИ САНКТ-ПЕТЕРБУРГСКОГО ГОСУДАРСТВЕННОГО ПОЛИТЕХНИЧЕСКОГО УНИВЕРСИТЕТА. ФИЗИКО-МАТЕМАТИЧЕСКИЕ НАУКИ
JF - НАУЧНО-ТЕХНИЧЕСКИЕ ВЕДОМОСТИ САНКТ-ПЕТЕРБУРГСКОГО ГОСУДАРСТВЕННОГО ПОЛИТЕХНИЧЕСКОГО УНИВЕРСИТЕТА. ФИЗИКО-МАТЕМАТИЧЕСКИЕ НАУКИ
SN - 2304-9782
IS - 3.2
ER -
ID: 106605332