Krishna Agarwal
Professor / Ultralyd, mikrobølger og optikk
Abhinanda Ranjit Punnakkal,
Suyog Sakhahari Jadhav,
Krishna Agarwal,
Ludwig Alexander Horsch,
Dilip Kumar Prasad
:
MiShape: 3D Shape Modelling of Mitochondria in Microscopy
arXiv.org 2023 DOI
Rohit Agarwal,
Ankit Butola,
Ludwig Alexander Horsch,
Dilip Kumar Prasad,
Krishna Agarwal
:
Taxonomy of hybridly polarized Stokes vortex beams
arXiv.org 2023 DOI
Biswajoy Ghosh,
Krishna Agarwal
:
Viewing life without labels under optical microscopes
Yingying Qin,
Ankit Butola,
Krishna Agarwal
:
3D full-wave multi-scattering forward solver for coherent microscopes
Anowarul Habib,
Pragyan Banerjee,
Sibasish Mishra,
Nitin Yadav,
Krishna Agarwal,
Frank Melandsø
m.fl.:
Image inpainting in acoustic microscopy
Abhinanda Ranjit Punnakkal,
Gustav Godtliebsen,
Ayush Somani,
Sebastian Andres Acuna Maldonado,
Åsa birna Birgisdottir,
Dilip K. Prasad
m.fl.:
Analyzing Mitochondrial Morphology Through Simulation Supervised Learning
Gustav Godtliebsen,
Kenneth Bowitz Larsen,
Zambarlal Babanrao Bhujabal,
Ida Sundvor Opstad,
Mireia Nager Grifo,
Abhinanda Ranjit Punnakkal
m.fl.:
High-resolution visualization and assessment of basal and OXPHOS-induced mitophagy in H9c2 cardiomyoblasts
Sunil Bhatt,
Ankit Butola,
Anand Kumar,
Pramila Thapa,
Akshay Joshi,
Suyog S. Jadhav
m.fl.:
Single-shot multispectral quantitative phase imaging of biological samples using deep learning
Applied Optics 2023 DOI
Krishna Agarwal
:
Viewing life without labels under optical microscopes
Communications Biology 2023 DOI
Yingying Qin,
Ankit Butola,
Krishna Agarwal
:
3D refractive index reconstruction from phaseless coherent optical microscopy data using multiple scattering-based inverse solvers - a study
Inverse Problems 2023 DOI
Krishna Agarwal
:
Viewing life without labels under optical microscopes
Communications Biology 2023 DOI
Luis Villegas,
Vishesh Kumar Dubey,
Mona Nystad,
Jean-Claude Tinguely,
David Andre Coucheron,
Firehun Tsige Dullo
m.fl.:
Chip-based multimodal super-resolution microscopy for histological investigations of cryopreserved tissue sections
Ankit Butola,
Sebastian Andres Acuna Maldonado,
Daniel Henry Hansen,
Krishna Agarwal
:
Scalable-resolution structured illumination microscopy
Ayush Somani,
Arif Ahmed Sekh,
Ida Sundvor Opstad,
Åsa birna Birgisdottir,
Truls Myrmel,
Balpreet Singh Ahluwalia
m.fl.:
Virtual labeling of mitochondria in living cells using correlative imaging and physics-guided deep learning
Prakhar Kumar,
Nitin Yadav,
Muhammad Shamsuzzaman,
Krishna Agarwal,
Frank Melandsø,
Anowarul Habib
:
Numerical method for tilt compensation in scanning acoustic microscopy
Measurement 2022 DOI
Ida Sundvor Opstad,
Gustav Godtliebsen,
Florian Ströhl,
Truls Myrmel,
Balpreet Singh Ahluwalia,
Krishna Agarwal
m.fl.:
Three-dimensional structured illumination microscopy data of mitochondria and lysosomes in cardiomyoblasts under normal and galactose-adapted conditions
Zicheng Liu,
Mayank Roy,
Dilip K. Prasad,
Krishna Agarwal
:
Physics-Guided Loss Functions Improve Deep Learning Performance in Inverse Scattering
Nikhil Jayakumar,
Firehun Tsige Dullo,
Vishesh Kumar Dubey,
Azeem Ahmad,
Florian Ströhl,
Jennifer Cauzzo
m.fl.:
Multi-moded high-index contrast optical waveguide for super-contrast high-resolution label-free microscopy
Ida Sundvor Opstad,
Daniel Henry Hansen,
Sebastian Andres Acuña Maldonado,
Florian Ströhl,
Anish Priyadarshi,
Jean-Claude Tinguely
m.fl.:
Fluorescence fluctuation-based super-resolution microscopy using multimodal waveguided illumination
Quan Do,
Sebastian Andres Acuña Maldonado,
Jon Ivar Kristiansen,
Krishna Agarwal,
Hoai Phuong Ha
:
Highly Efficient and Scalable Framework for High-Speed Super-Resolution Microscopy
Ida Sundvor Opstad,
Gustav Godtliebsen,
Balpreet Singh Ahluwalia,
Truls Myrmel,
Krishna Agarwal,
Åsa birna Birgisdottir
:
Mitochondrial dynamics and quantification of mitochondria-derived vesicles in cardiomyoblasts using structured illumination microscopy
Arif Ahmed Sekh,
Ida Sundvor Opstad,
Gustav Godtliebsen,
Åsa Birna Birgisdottir,
Balpreet Singh Ahluwalia,
Krishna Agarwal
m.fl.:
Physics-based machine learning for subcellular segmentation in living cells
Ida Sundvor Opstad,
Sebastian Andres Acuna Maldonado,
Stefan Ströhl,
Florian Ströhl,
Balpreet Singh Ahluwalia,
Krishna Agarwal
:
Blind reconstruction of challenging raw data outperforms commercial 3DSIM
2023
Ida Sundvor Opstad,
Sebastian Andres Acuna Maldonado,
Åsa birna Birgisdottir,
Balpreet Singh Ahluwalia,
Krishna Agarwal
:
From super-resolution imaging to cellular dynamics
2023
Ida Sundvor Opstad,
Sebastian Andres Acuna Maldonado,
Stefan Ströhl,
Florian Ströhl,
Balpreet Singh Ahluwalia,
Krishna Agarwal
:
Blind reconstruction of challenging raw data outperforms commercial 3DSIM
2023
Ankit Butola,
Sebastian Andres Acuna Maldonado,
Daniel Henry Hansen,
Krishna Agarwal
:
Multiscale resolution in Structured illumination microscopy
2023
Jean-Claude Tinguely,
Vishesh Kumar Dubey,
Sebastian Andres Acuna Maldonado,
Ida Sundvor Opstad,
Luis Enrique Villegas Hernandez,
Florian Ströhl
m.fl.:
Integrated optical circuits for multimodal super-resolution microscopy
2023
Yingying Qin,
Ankit Butola,
Krishna Agarwal
:
Full-wave multiple-scattering forward modeling for conventional label-free microscope
2023
Yingying Qin,
Ankit Butola,
Krishna Agarwal
:
3D Full Wave Electromagnetic Modeling of Label-free Optical Microscopes
2023
Yingying Qin,
Krishna Agarwal
:
3D Full Wave Electromagnetic Modeling of Label-free Optical Microscopes
2023
Sebastian Andres Acuna Maldonado,
Krishna Agarwal
:
MUSICAL – a versatile super-resolution microscopy solution for gentle imaging of physical characteristics of biological samples
2023
Sebastian Andres Acuna Maldonado,
Ida Sundvor Opstad,
Luis Enrique Villegas Hernandez,
Balpreet Singh Ahluwalia,
Krishna Agarwal
:
MUSICAL: a family of computational techniques for fluorescence nanoscopy
2023
Sebastian Andres Acuna Maldonado,
Luis Enrique Villegas Hernandez,
Ida Sundvor Opstad,
Jean-Claude Tinguely,
Balpreet Singh Ahluwalia,
Krishna Agarwal
:
MUSICAL: results on chip nanoscopy
2023
Sebastian Andres Acuna Maldonado,
Krishna Agarwal
:
MUSICAL – a versatile computational nanoscopy approach
2023
Biswajoy Ghosh,
Kristen Andreassen Fenton,
Krishna Agarwal
:
Gradient Light Interface Microscopy for Labelfree Detection of Early Changes in kidney Cells Embedded in a Soft and Stiff Hydrogel Matrix
2023
Sebastian Andres Acuna Maldonado,
Krishna Agarwal
:
MUSI-tAF: Autofluorescence-based Super-Resolution of Collagen Fibrils in Fixed Tissues for Density Estimation
2023
Biswajoy Ghosh,
Krishna Agarwal
:
GelMA Hydrogel Mechanics Affect the Collective Migration of Fibroblast Cells
2023
Sunil Bhatt,
Ankit Butola,
Sebastian Andres Acuna Maldonado,
Daniel Henry Hansen,
Jean-Claude Tinguely,
Dalip Singh Mehta
m.fl.:
Quantitative phase imaging for tracing the motion of waveguide trapped bead particle
2023
Nikhil Jayakumar,
Firehun Tsige Dullo,
Vishesh Kumar Dubey,
Azeem Ahmad,
Florian Ströhl,
Jennifer Cauzzo
m.fl.:
Erratum: Multi-moded high-index contrast optical waveguide for super-contrast high-resolution label-free microscopy (Nanophotonics DOI: 10.1515/nanoph-2022-0500.pdf)
Nanophotonics 2022 DOI
Jean-Claude Tinguely,
Ida Sundvor Opstad,
Sebastian Acuña,
Luis E. Villegas-Hernandez,
Vishesh Dubey,
Florian Ströhl
m.fl.:
Integrated photonics for super-resolution microscopy
2022
Ankit Butola,
David Andre Coucheron,
Karolina Szafranska,
Azeem Ahmad,
Hong Mao,
Jean-Claude Tinguely
m.fl.:
Quantitative phase imaging and on-chip nanoscopy for 3D imaging of liver sinusoidal endothelial cells
2022
Rohit Agarwal,
Krishna Agarwal,
Alexander Horsch,
Dilip K. Prasad
:
Auxiliary Network: Scalable and agile online learning for dynamic system with inconsistently available inputs
2022 ARKIV
Ida Sundvor Opstad,
Deanna Wolfson,
Balpreet Singh Ahluwalia,
Krishna Agarwal,
Tore Seternes,
Roy Ambli Dalmo
:
Diving into fish skin: understanding cell avalanches and migrating keratocytes
2022
Ida Sundvor Opstad,
Daniel Henry Hansen,
Sebastian Andres Acuna Maldonado,
Florian Ströhl,
Anish Priyadarshi,
Jean-Claude Tinguely
m.fl.:
Large area super-resolution TIRFM of arctic fish species
2022
Ida Sundvor Opstad,
Gustav Godtliebsen,
Balpreet Singh Ahluwalia,
Truls Myrmel,
Krishna Agarwal,
Åsa birna Birgisdottir
:
Quantification of mitochondria‐derived vesicles in cardiomyoblasts using 3DSIM & machine learning-based segmentation
2022
Luis Villegas,
Vishesh Kumar Dubey,
Mona Nystad,
Kristin Andreassen Fenton,
Ganesh Acharya,
Jose M. Mateos
m.fl.:
Chip-based multimodal microscopy for histological investigations of cryopreserved tissue sections
2022
Ida Sundvor Opstad,
Gustav Godtliebsen,
Balpreet Singh Ahluwalia,
Truls Myrmel,
Krishna Agarwal,
Åsa birna Birgisdottir
:
Mitochondrial dynamics and quantification of mitochondria-derived vesicles (MDVs) in cardiomyoblasts using 3DSIM
2022
Shivani Bhardwaj,
Krishna Agarwal,
Balpreet Singh Ahluwalia
:
2021 INTPART WINTER WORKSHOP ON "Microscopy, Bioimaging and Artificial Intelligence"
2021
Krishna Agarwal,
Oliver Vanderpoorten
:
”How to catch a cold” – Nanofluidic chips for trapping of biological nanoparticles
digitallifenorway.org 2021
Nikhil Jayakumar,
Firehun Tsige Dullo,
Vishesh Kumar Dubey,
Azeem Ahmad,
Jennifer Cauzzo,
Eduarda Mazagao Guerreiro
m.fl.:
Label-free imaging on waveguide platform with enhanced resolution and contrast
2021 ARKIV
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Undervisning
Optisk nanoskopi (Kurs FYS-3029)
