Adeel Ahmad scite author profile

Aberrations in optical microscopy reduce image resolution and contrast, and can limit imaging depth when focusing into biological samples. Static correction of aberrations may be achieved through appropriate lens design, but this approach does not offer the flexibility of simultaneously correcting aberrations for all imaging depths, nor the adaptability to correct for sample-specific aberrations for high-quality tomographic optical imaging. Incorporation of adaptive optics (AO) methods have demonstrated considerable improvement in optical image contrast and resolution in noninterferometric microscopy techniques, as well as in optical coherence tomography. Here we present a method to correct aberrations in a tomogram rather than the beam of a broadband optical interferometry system. Based on Fourier optics principles, we correct aberrations of a virtual pupil using Zernike polynomials. When used in conjunction with the computed imaging method interferometric synthetic aperture microscopy, this computational AO enables object reconstruction (within the single scattering limit) with ideal focal-plane resolution at all depths. Tomographic reconstructions of tissue phantoms containing subresolution titanium-dioxide particles and of ex vivo rat lung tissue demonstrate aberration correction in datasets acquired with a highly astigmatic illumination beam. These results also demonstrate that imaging with an aberrated astigmatic beam provides the advantage of a more uniform depth-dependent signal compared to imaging with a standard Gaussian beam. With further work, computational AO could enable the replacement of complicated and expensive optical hardware components with algorithms implemented on a standard desktop computer, making high-resolution 3D interferometric tomography accessible to a wider group of users and nonspecialists.low-coherence tomography | three-dimensional microscopy | aberration compensation | holography | inverse scattering

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Observation of a NewχbState in Radiative Transitions toΥ(1S)andΥ
Aad¹,
Abbott²,
Abdallah³
et al. 2012
Phys. Rev. Lett.
147
7
142
1
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The χ(b)(nP) quarkonium states are produced in proton-proton collisions at the Large Hadron Collider at sqrt[s] = 7 TeV and recorded by the ATLAS detector. Using a data sample corresponding to an integrated luminosity of 4.4 fb(-1), these states are reconstructed through their radiative decays to Υ(1S,2S) with Υ → μ+ μ-. In addition to the mass peaks corresponding to the decay modes χ(b)(1P,2P) → Υ(1S)γ, a new structure centered at a mass of 10.530 ± 0.005(stat) ± 0.009(syst) GeV is also observed, in both the Υ(1S)γ and Υ(2S)γ decay modes. This structure is interpreted as the χ(b)(3P) system.

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Vital signs monitoring of multiple people using a FMCW millimeter-wave sensor

et al. 2018

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Adeel Ahmad

CMS Collaboration

Search for high mass dijet resonances with a new background prediction method in proton-proton collisions at $$ \sqrt{s} $$ = 13 TeV

Computational adaptive optics for broadband optical interferometric tomography of biological tissue

Observation of a NewχbState in Radiative Transitions toΥ(1S)andΥ
Aad¹,
Abbott²,
Abdallah³
et al. 2012
Phys. Rev. Lett.
147
7
142
1
View full text Add to dashboard Cite

Vital signs monitoring of multiple people using a FMCW millimeter-wave sensor

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About

Adeel Ahmad

CMS Collaboration

Search for high mass dijet resonances with a new background prediction method in proton-proton collisions at $$ \sqrt{s} $$ = 13 TeV

Computational adaptive optics for broadband optical interferometric tomography of biological tissue

Observation of a NewχbState in Radiative Transitions toΥ(1S)andΥAad1, Abbott2, Abdallah3 et al. 2012Phys. Rev. Lett.14771421View full textAdd to dashboardCite

Vital signs monitoring of multiple people using a FMCW millimeter-wave sensor

Contact Info

Product

Resources

About

Observation of a NewχbState in Radiative Transitions toΥ(1S)andΥ
Aad¹,
Abbott²,
Abdallah³
et al. 2012
Phys. Rev. Lett.
147
7
142
1
View full text Add to dashboard Cite