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Hauptverfasser: Cagigas, Miguel A., Clavero, R., Cagigal, Manuel P., Nespral, David, Djupvik, A. A., Jones, D., Valle, Pedro J., Canales, Vidal F., Soria, E., López, R., Zamora, O., Oscoz, A., Marco, J.
Format: Preprint
Veröffentlicht: 2025
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Online-Zugang:https://arxiv.org/abs/2501.05154
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author Cagigas, Miguel A.
Clavero, R.
Cagigal, Manuel P.
Nespral, David
Djupvik, A. A.
Jones, D.
Valle, Pedro J.
Canales, Vidal F.
Soria, E.
López, R.
Zamora, O.
Oscoz, A.
Marco, J.
author_facet Cagigas, Miguel A.
Clavero, R.
Cagigal, Manuel P.
Nespral, David
Djupvik, A. A.
Jones, D.
Valle, Pedro J.
Canales, Vidal F.
Soria, E.
López, R.
Zamora, O.
Oscoz, A.
Marco, J.
contents We provide a technique for resolving intermediate-separation binaries stars with medium-sized telescopes (i.e. diameter less than or equal to 2.5 m) at wavelengths around 825 nm in the super-resolution range (i.e. below the limit defined by the Rayleigh criterion). We combined two well-known algorithms that have been applied to reduce the halo in lucky imaging observations: COvariancE of Lucky Images (COELI) and the Lucky Imaging Speckle Suppression Algorithm (LISSA). We reviewed the fundamentals of both algorithms and describe a new technique called Lucky Imaging Super resolution Technique (LIST), which is optimized for peak highlighting within the first ring of the Airy pattern. To validate the technique, we carried out several observing campaigns of well-known binary stars with FastCam on the 1.52 m TCS and 2.56 m NOT. The projected angular separation between objects was resolved by applying LIST with a result below 0.15". It can go down to approximately 0.05", given the limitations of the detector plate scale. This is, to our knowledge, the first time that binary companions with such small angular separations have been detected using only lucky imaging at optical wavelengths. The average accuracy achieved for the angular separation measurement is 16 mas with NOT and is 20 mas with TCS. The average accuracy obtained for the position angle measurement is $9.5^o$ for NOT and $11^o$ for TCS. We also made an attempt to measure the relative brightnesses of the binary components, obtaining results that are compatible with literature measurements. Lucky imaging, in combination with speckle suppression and a covariance analysis, can allow the resolution of multiple point sources below the diffraction limit of 2-m class telescopes. However, it should be noted that measurements in the super-resolution regime are less sensitive than those above the first Airy ring.
format Preprint
id arxiv_https___arxiv_org_abs_2501_05154
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Detection of binary companions below the diffraction limit with lucky imaging
Cagigas, Miguel A.
Clavero, R.
Cagigal, Manuel P.
Nespral, David
Djupvik, A. A.
Jones, D.
Valle, Pedro J.
Canales, Vidal F.
Soria, E.
López, R.
Zamora, O.
Oscoz, A.
Marco, J.
Instrumentation and Methods for Astrophysics
We provide a technique for resolving intermediate-separation binaries stars with medium-sized telescopes (i.e. diameter less than or equal to 2.5 m) at wavelengths around 825 nm in the super-resolution range (i.e. below the limit defined by the Rayleigh criterion). We combined two well-known algorithms that have been applied to reduce the halo in lucky imaging observations: COvariancE of Lucky Images (COELI) and the Lucky Imaging Speckle Suppression Algorithm (LISSA). We reviewed the fundamentals of both algorithms and describe a new technique called Lucky Imaging Super resolution Technique (LIST), which is optimized for peak highlighting within the first ring of the Airy pattern. To validate the technique, we carried out several observing campaigns of well-known binary stars with FastCam on the 1.52 m TCS and 2.56 m NOT. The projected angular separation between objects was resolved by applying LIST with a result below 0.15". It can go down to approximately 0.05", given the limitations of the detector plate scale. This is, to our knowledge, the first time that binary companions with such small angular separations have been detected using only lucky imaging at optical wavelengths. The average accuracy achieved for the angular separation measurement is 16 mas with NOT and is 20 mas with TCS. The average accuracy obtained for the position angle measurement is $9.5^o$ for NOT and $11^o$ for TCS. We also made an attempt to measure the relative brightnesses of the binary components, obtaining results that are compatible with literature measurements. Lucky imaging, in combination with speckle suppression and a covariance analysis, can allow the resolution of multiple point sources below the diffraction limit of 2-m class telescopes. However, it should be noted that measurements in the super-resolution regime are less sensitive than those above the first Airy ring.
title Detection of binary companions below the diffraction limit with lucky imaging
topic Instrumentation and Methods for Astrophysics
url https://arxiv.org/abs/2501.05154