Bilde av Ahluwalia, Balpreet Singh
Foto: UiT
Bilde av Ahluwalia, Balpreet Singh
Professor / Ultralyd, mikrobølger og optikk Institutt for fysikk og teknologi balpreet.singh.ahluwalia@uit.no +4777645185 Her finner du meg

Balpreet Singh Ahluwalia


Stillingsbeskrivelse

 

Prosjektside:

Optical Nanoscopy

 


  • Udith Haputhanthri, Kithmini Herath, Ramith Hettiarachchi, Hasindu Kariyawasam, Azeem Ahmad, Balpreet Singh Ahluwalia m.fl.:
    Towards ultrafast quantitative phase imaging via differentiable microscopy [Invited]
    Biomedical Optics Express 2024 ARKIV / DOI
  • Joseph Rosen, Simon Alford, Blake Allan, Vijayakumar Anand, Shlomi Arnon, Francis Gracy Arockiaraj m.fl.:
    Roadmap on computational methods in optical imaging and holography [invited]
    Applied physics B 2024 ARKIV / DOI
  • Dhivya Borra Thiyagarajan, Marie H. S. Stette, Muhammad Bilal Afzal, Balpreet Singh Ahluwalia, Krishna Agarwal, Roy Ambli Dalmo m.fl.:
    3D imaging shows nano- and microparticles are internalized by salmon skin and corneal epithelial cells
    Frontiers in Marine Science 2024 ARKIV / DOI
  • Sathi Das, Jean-Claude Tinguely, Sybil Akua Okyerewa Obuobi, Natasa Skalko Basnet, Kanchan Saxena, Balpreet Singh Ahluwalia m.fl.:
    Plasmonic nano-bowls for monitoring intra-membrane changes in liposomes, and DNA-based nanocarriers in suspension
    Biomedical Optics Express 2024 ARKIV / DOI
  • Sathi Das, Jean-Claude Tinguely, Vrishty Kundu, Kanchan Saxena, Balpreet Singh Ahluwalia, Dalip Singh Mehta :
    Sculptured silicon nanopillars bridging face to face nanogaps with metal-insulator-metal coating for surface enhanced Raman spectroscopy
    Surfaces and Interfaces 2024 DOI
  • Azeem Ahmad, Pawel Piotr Goclowski, Vishesh Kumar Dubey, Maciej Trusiak, Balpreet Singh Ahluwalia :
    High space–time bandwidth product imaging in low coherence quantitative phase microscopy
    Scientific Reports 2024 ARKIV / DOI
  • Abhishek Ranjan, Jaya Kumari Swain, Balpreet Singh Ahluwalia, Frank Melandsø :
    3-D Visualization of Atlantic salmon skin through Ultrasound and Photoacoustic Microscopy
    PLoS Computational Biology 2024 ARKIV / DOI
  • Anuj Saxena, Azeem Ahmad, Vishesh Kumar Dubey, Hong Mao, Anand Kumar, Anowarul Habib m.fl.:
    Single-shot quantitative differential phase contrast microscope using a single calcite beam displacer
    Applied Optics 2024 DOI
  • Abhishek Ranjan, Azeem Ahmad, Balpreet Singh Ahluwalia, Frank Melandsø :
    Laser-Generated Scholte Waves in Floating Microparticles
    Sensors 2023 ARKIV / DOI
  • Hong Mao, Karolina Szafranska, Larissa Dorothea Kruse, Christopher Florian Holte, Deanna Wolfson, Balpreet Singh Ahluwalia m.fl.:
    Effect of caffeine and other xanthines on liver sinusoidal endothelial cell ultrastructure
    Scientific Reports 2023 ARKIV / DOI
  • Sathi Das, Kanchan Saxena, Jean-Claude Tinguely, Arijit Pal, Nima L. Wickramasinghe, Abdolrahman Khezri m.fl.:
    SERS Nanowire Chip and Machine Learning-Enabled Classification of Wild-Type and Antibiotic-Resistant Bacteria at Species and Strain Levels
    ACS Applied Materials & Interfaces 2023 ARKIV / DOI
  • Henry Arguello, Jorge Bacca, Hasindu Kariyawasam, Edwin Vargas, Miguel Marquez, Ramith Hettiarachchi m.fl.:
    Deep Optical Coding Design in Computational Imaging: A data-driven framework
    IEEE Signal Processing Magazine 2023 ARKIV / DOI
  • Azeem Ahmad, Ramith Hettiarachchi, Abdolrahman Khezri, Balpreet Singh Ahluwalia, Dushan Wadduwage, Rafi Ahmad :
    Highly sensitive quantitative phase microscopy and deep learning aided with whole genome sequencing for rapid detection of infection and antimicrobial resistance
    Frontiers in Microbiology 2023 ARKIV / DOI
  • Samanta Krishnendu, Azeem Ahmad, Jean-Claude Tinguely, Balpreet Singh Ahluwalia, Joby Joseph :
    Transmission structured illumination microscopy with tunable frequency illumination using tilt mirror assembly
    Scientific Reports 2023 ARKIV / DOI
  • Sathi Das, Kanchan Saxena, Abdolrahman Khezri, Vishesh Kumar Dubey, Azeem Ahmad, Jean-Claude Tinguely m.fl.:
    Rapid identification of antimicrobial drug resistance strains of E-coli using SERS nanowire chip
    Proceedings of SPIE, the International Society for Optical Engineering 16. mars 2023 ARKIV / DOI
  • Florian Ströhl, Deanna Wolfson, Ida Sundvor Opstad, Daniel Henry Hansen, Hong Mao, Balpreet Singh Ahluwalia :
    Label-free superior contrast with c-band ultra-violet extinction microscopy
    Light: Science & Applications (LSA) 2023 ARKIV / DOI
  • Azeem Ahmad, Anowarul Habib, Vishesh Kumar Dubey, Balpreet Singh Ahluwalia :
    Unbalanced low coherence interference microscopy
    Optics and lasers in engineering 2022 ARKIV / DOI
  • Florian Ströhl, Ezra Bruggeman, Christopher Rowlands, Deanna Wolfson, Balpreet Singh Ahluwalia :
    Quantification of the NA dependent change of shape in the image formation of a z-polarised fluorescent molecule using vectorial diffraction simulations
    Microscopy research and technique (Print) 2022 ARKIV / DOI
  • Karolina Szafranska, Tanja Neuman, Zbigniew Baster, Zenon Rajfur, Oskar Szelest, Christopher Florian Holte m.fl.:
    From fixed-dried to wet-fixed to live-comparative super-resolution microscopy of liver sinusoidal endothelial cell fenestrations
    Nanophotonics 2022 ARKIV / 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
    Light: Science & Applications (LSA) 2022 ARKIV / DOI
  • Kaushik Shukla, Azeem Ahmad, Balpreet Singh Ahluwalia, Frank Melandsø, Anowarul Habib :
    Finite element simulation of transmission and reflection of acoustic waves in the ultrasonic transducer
    Japanese Journal of Applied Physics (JJAP) 2022 ARKIV / DOI
  • 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, 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
  • Anne Ingeborg Myhr, Deanna Wolfson, Ida Sundvor Opstad, Balpreet Singh Ahluwalia, Dhivya Borra Thiyagarajan, Torill Pauline Bakkelund Blix m.fl.:
    Nano- and micro-plastics and fish: Novel methods for detection and the role of RRI in such research
    2023
  • Luis Enrique Villegas Hernandez, Vishesh Kumar Dubey, Sebastian Andres Acuna Maldonado, Hong Mao, Jean-Claude Tinguely, Krishna Agarwal m.fl.:
    Photonic chip: a high-throughput multimodal nanoscopy platform for histopathology
    2023
  • Balpreet Singh Ahluwalia :
    Development and Application of Highly Sensitive and High Throughput Quantitative Phase Microscopy for Life Sciences
    2023
  • Balpreet Singh Ahluwalia :
    Overview of the INTPART project
    2023
  • Balpreet Singh Ahluwalia :
    Development of advanced optical microscopy for bio-imaging application
    2023
  • Balpreet Singh Ahluwalia :
    Advanced optical microscopy for bio-imaging application
    2023
  • Balpreet Singh Ahluwalia :
    Development of highly sensitive and high throughput Quantitative phase microscopy for life science and diagnosis
    2023
  • Balpreet Singh Ahluwalia :
    Development of highly sensitive and high throughput Quantitative phase microscopy for life science and diagnosis
    2023
  • Balpreet Singh Ahluwalia :
    Overview of fluorescence based advanced optical microscopy methods
    2023
  • Balpreet Singh Ahluwalia :
    Impact of Photons: Internet, security, space and beyond
    2023
  • Balpreet Singh Ahluwalia, Azeem Ahmad, Vishesh Kumar Dubey, Ankit Butola :
    Quantitative phase microscopy for life science and diagnosis (Conference Presentation)
    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
  • 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, Ida Sundvor Opstad, Luis Enrique Villegas Hernandez, Balpreet Singh Ahluwalia, Krishna Agarwal :
    MUSICAL: a family of computational techniques for fluorescence nanoscopy
    2023
  • Balpreet Singh Ahluwalia :
    Development of Photonics sensors for pathogen detection
    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
  • Vishesh Kumar Dubey, Azeem Ahmad, Luis Enrique Villegas Hernandez, Hong Mao, Mona Nystad, Ganesh Prasad Acharya m.fl.:
    Photonic-chip based multimodal optical imaging of formalin-fixed paraffin-embedded tissue sections (Conference Presentation)
    2023
  • Balpreet Singh Ahluwalia :
    Super-resolution optical microscopy for life science
    2023
  • Balpreet Singh Ahluwalia :
    Overview of optical microscopy activities at UiT
    2023
  • Balpreet Singh Ahluwalia :
    Development of high-throughput on-chip optical nanoscopy and quantitative phase microscopy for life science
    2023
  • Udith Haputhanthri, Kithmini Herath, Ramith Hettiarachchi, Hasindu Kariyawasam, Azeem Ahmad, Balpreet Singh Ahluwalia m.fl.:
    From hours to seconds: towards 100x faster quantitative phase imaging via differentiable microscopy (Conference Presentation)
    2023
  • Vishesh Kumar Dubey, Azeem Ahmad, Balpreet Singh Ahluwalia :
    Highly sensitive quantitative phase microscopy for biomedical imaging
    2023
  • Nikhil Jayakumar, Vishesh Kumar Dubey, Balpreet Singh Ahluwalia, Azeem Ahmad :
    Deciphering dynamic speckle illumination interference microscopy
    2023
  • Dalip Singh Mehta, Shilpa Tayal, Azeem Ahmad, Sunil Bhatt, Vishesh Kumar Dubey, Ankit Butola m.fl.:
    Effect of partial spatial coherence of light on quantitative phase microscopy of biological samples: improved spatial phase sensitivity, space-bandwidth product, and high accuracy in phase measurement
    2023
  • 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, 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

  • De 50 siste resultatene fra Cristin vises på siden. Se alle arbeider i Cristin her →

    Publikasjoner utenom Cristin

    Google Scholar :

    http://scholar.google.no/citations?user=aeIyzeMAAAAJ&hl=en 

    Citation History (Web-of Science)

    International Peer-Reviewed Journal Papers

    1. Azeem Ahmad, Vishesh Dubey, Vijay Raj Singh, Jean-Claude Tinguely, Cristina Ionica Øie, Deanna L. Wolfson, Dalip Singh Mehta, Peter T. C. So and Balpreet Singh Ahluwalia, "Quantitative phase microscopy of red blood cells during planar trapping and propulsion", Accepted, Lab-on-a-chip, 2018.

    2. Vishesh Dubey, Azeem Ahmad, Rajwinder Singh, Deanna L Wolfson, Purusotam Basnet, Ganesh Acharya, Dalip Singh Mehta, Balpreet Singh Ahluwalia, "Multi-modal chip-based fluorescence and quantitative phase microscopy for studying inflammation in macrophages", Accepted, Optics Express, 2018.

    3. Lavish Pamwani, Anowarul Habib, Frank Melandsø, Balpreet Singh Ahluwalia, Amit Shelke,"Single-Input and Multiple-Output Surface Acoustic Wave Sensing for Damage Quantification in Piezoelectric Sensors", Accepted, Sensors, 2018
    4. Ida S. Opstad, Deanna L. Wolfson, Cristina I. Øie, Balpreet S. Ahluwalia, “Multi-color imaging of sub-mitochondrial structures in living cells using structured illumination microscopy”, Accepted, Nanophotonics, 2018.
    5. Marcel Lahrberg, Mandeep Singh, Kedar Khare, Balpreet Singh Ahluwalia, “Accurate estimation of the illumination pattern’s orientation and wavelength in sinusoidal structured illumination microscopy”, Applied optics, 57 (5), 1019-1025, 2018.
    6. Cristina I Øie, Viola Mönkemöller, Wolfgang Hübner, Mark Schüttpelz, Hong Mao, Balpreet S Ahluwalia, Thomas R Huser, Peter McCourt, “New ways of looking at very small holes–using optical nanoscopy to visualize liver sinusoidal endothelial cell fenestrations”, Nanophotonics, 7, 575, 2018.
    7. JC Tinguely, ØI Helle, BS Ahluwalia, "Silicon nitride waveguide platform for fluorescence microscopy of living cells", Optics Express 25 (22), 27678-27690, 2017 
    8. Robin Diekmann#, Øystein I. Helle#, Cristina I. Øie, Peter McCourt, Thomas R. Huser, Mark Schüttpelz and Balpreet S. Ahluwalia, "Chip-based wide field-of-view nanoscopy", Nature Photonics, 11 (5), 322-328, 2017.

    9. Rajwinder Singh, Deanna Wolfson, Vishesh Dubey, Azeem Ahmad, Ganesh Acharya, Dalip Mehta, Purusotam Basnet, Balpreet Ahluwalia, "Inflammatory response of macrophages and trophoblasts investigated using structured illumination microscopy and quantitative phase microscopy", Placenta 57, 333, 2017
    10. Balpreet S. Ahluwalia, "High-resolution optical nanoscopy of placental cells", Placenta 57, 238-239, 2017
    11. Balpreet S Ahluwalia, Øystein I Helle, Olav G Hellesø, “Rib waveguides for trapping and transport of particles”,Optics Express 24 (5), 4477-4487, 2016

    12. Sanat Wagle, Adit Decharat, Anowarul Habib, Balpreet S. Ahluwalia and Frank Melandsø, “Evaluation of adhesive-free crossed-electrode poly(vinylidene fluoride) copolymer array transducers for high frequency imaging”, Japanese Journal of Applied Physics, 55, 7S1, 2016

    13. Øystein, Ivar Helle, Balpreet Singh Ahluwalia, Olav Gaute, Hellesø, "Optical transport, lifting and trapping of micro-particles by planar waveguides", Opt Express., 23(5), 2015.
    14. S. M. Lindecrantz, J.-C. Tinguely, B. Singh Ahluwalia, O. G. Hellesø", Sensitivity of a Mach-Zehnder interferometer made with shallow rib waveguides", J. Eur. Opt. Soc.- Rapid, 10, 15020 (2015).

    15. Balpreet Singh Ahluwalia*, Peter McCourt, Ana Oteiza, James S. Wilkinson, Thomas R. Huser and Olav Gaute Hellesø, “Squeezing red blood cells with the evanescent field of an optical waveguide to monitor cell deformability during blood storage”, Analyst,140, 223-229, 2015.
    16. Løvhaugen, Pål; Ahluwalia, Balpreet Singh; Huser, Thomas Rolf; Hellesø, Olav Gaute. Serial Raman spectroscopy of particles trapped on a waveguide. Optics Express 2013; Volum 21 (3). ISSN 1094-4087.s 2964 - 2970.s doi: 10.1364/OE.21.002964.
    17. C A. Changou, D L. Wolfson, B S Ahluwalia, R J. Bold, H-J Kung, F Y. S. Chuang, “Quantitative Analysis of Autophagy using Advanced 3D Fluorescence Microscopy”, Jour. of Visualized Experiments, In Press 2012.
    18. Olav Gaute Hellesø, Pal Løvhaugen, Ananth Z. Subramanian, James S. Wilkinson and Balpreet Singh Ahluwalia*, “Surface transport and stable trapping of particles and cells by an optical waveguide loop”, Lab-on-a-chip, 2012, In press DOI: 10.1039/c2lc40375g,
    19. Balpreet Singh Ahluwalia, P Løvhaugen, and O. G. Hellesø, "Waveguide trapping of hollow glass spheres," Opt. Lett. 36, 3347-3349 (2011).  
    20. B. S. Ahluwalia, Peter McCourt, Thomas Huser and Olav Gaute Hellesø, “Optical Trapping and propulsion of red blood cells on waveguide surfaces”, Optics Express, 18, 21053 (2010). 
    21. B. P. S. Ahluwalia, Ananth Z. Subramanian, Olav Gaute Hellesø, Nicolas M. B. Perney, Neil P. Sessions and James S Wilkinson, “Fabrication of sub-micron high refractive index tantalum pentoxide waveguides for optical propulsion of microparticles”, Photonics Technological Letters, 20757, (2009). 
    22. S. Vasudevan, George C. K. Chen, and B. P. S. Ahluwalia, "Integration of laser trapping for continuous and selective monitoring of photothermal response of a single microparticle," Optics Letters. 33, 2779-2781 (2008). 
    23. B. P. S. Ahluwalia, X.-C. Yuan, K. J. Moh, and J. Bu, "Experimental transfer of torque induced by localized polarization of radially polarized vector beams to anisotropic micro-particles", Applied Physics Letters, 91, 171102(2007).
    24. B. P. S. Ahluwalia, X.-C. Yuan, et. al. ,Tolerance of microfabricated wedge for the generation of geometrical stable optical vortex at focal vicinity”, Applied Physics Letters, 90, 091115, (2007). 
    25. X.-C. Yuan, B. P. S. Ahluwalia, et. al., Generation of high-quality optical vortex beams in free-space propagation by microfabricated wedge with spatial filtering technique”, Applied Physics Letters, 91, 051103 (2007). 
    26. X.-C. Yuan, B. P. S. Ahluwalia et. al., “Wavelength-scalable micro-fabricated wedge for generation of optical vortex beam in optical manipulation”, Applied Physics B, 86, 209-213, (2007). 
    27. J. Lin, X.-C. Yuan, J. Bu, B. P. Ahluwalia, Y. Y. Sun, R. E. Burge, “Selective generation of high-order optical vortices from a single phase wedge”, Optics Letters, 32, 2927-2929, (2007).
    28. X.-C. Yuan , B. P. S. Ahluwalia, W.C. Cheong, J. Bu, H. B. Niu and X. Peng, “Direct electron beam writing of kinoform micro-axicon for generation of propagation-invariant beams with long non-diffracting distance”, Journal of Optics A, 9, 329, (2007)
    29. J. Bu, J. Lin, K. J. Moh, B. P. S. Ahluwalia, H. L. Chen, X. Peng, H. B. Niu and X. C. Yuan, “3D optical vortices generated by micro-optical elements and its novel applications”, Optoelectronics Letter 3, 136-140, (2007)
    30. B. P. S. Ahluwalia, W. C. Cheong, et. al., "Design and fabrication of double-axicon for the generation of tailorable self-imaged three-dimensional intensity voidsOptics Letters, 31, 987, (2006)
    31. B. P. S. Ahluwalia, X.-C. Yuan, S. H. Tao, W. C. Cheong, L. S. Zhang, and H. Wang., "Micro-manipulation of high and low indices microparticles using a microfabricated double-axicon", 99, 113104, Journal of Applies Physics, (2006). 
    32. K. J. Moh, X.-C. Yuan, W. C. Cheong, L. S Zhang, J. Lin, B. P.S. Ahluwalia and H. Wang, "High power efficient multiple optical vortices in a single beam generated by a kinoform type spiral phase plate", Applied Optics, Appl. Opt. 45, 1153-1161 (2006). 
    33. B. P. S. Ahluwalia, X.-C. Yuan, S. H. Tao, J. Bu, H. Wang, X. Peng, and H. B. Niu, "Microfabricated-composite-hologram-enabled multiple channel longitudinal optical guiding of microparticles in nondiffracting core of a Bessel beam array", Applied Physics Letters, 87, 084104, (2005). 
    34. B. P. S. Ahluwalia, X.-C. Yuan and S. H. Tao, “Evolution of composite off-axis vortexes embedded in the propagation-invariant beams”, Optics Communication, 247, 1, (2005).Citation: - 1
    35. W.C. Cheong, B. P. S. Ahluwalia, et. al. "Fabrication of efficient micro-axicon by direct electron beam lithography for long non-diffracting distance of Bessel beams for optical manipulation", Applied Physics Letters, 87, 024104-1 (2005).
    36. W M Lee, B P S Ahluwalia, X-C Yuan, W C Cheong and K Dholakia., "Optical steering of high and low index microparticles by manipulating an off-axis vortex”, Journal of Optics A, 7, 1-6 (2005). Citation: -20
    37. S. H. Tao, X.-C. Yuan and B. P. S. Ahluwalia, “Generation of an array of nondiffracting beams by a single composite computer generated hologram”, Journal of Optics A7, 40 (2005).
    38. B. P. S. Ahluwalia, X.-C. Yuan, S. H. Tao., “Generation of self-imaged optical bottle beam”,Optics Communication 238, 177-184 (2004).
    39. B. P. S. Ahluwalia, X.-C. Yuan, S. H. Tao, “Transfer of ‘pure’ on-axis spin orbital angular momentum to the absorptive particle using self-imaged optical bottle beam”, Optics Express, 12, 5172, (2004). 

     Papers Published in SPIE Proceedings

    1. Peter McCourt, Thomas Huser, Karen Kristine Sørensen ,Cristina Ionica Øie, Viola Mönkemöller,  Balpreet Singh Ahluwalia, Optical nanoscopy to reveal structural and functional properties of liver cells", Invited Paper, SPIE Optics and Photonics, San Diego, Nanoimaging and Nanospectroscopy, 2015.
    2. Øystein Ivar Helle, Cristina Ionica Øie, Peter McCourt, Balpreet Singh Ahluwalia*, "Chip-based optical microscopy for imaging membrane sieve plates of liver scavenger cells", SPIE Optics and Photonics, San Diego, Nanoimaging and Nanospectroscopy, 2015
    3. Balpreet S. Ahluwalia, Deanna L. Wolfson, Frank Y. S. Chuang, Thomas R. Huser, “Optical nanoscopy of a living cell” SPIE Optics & Photonics, 2014, San Deigo (Invited Paper),
    4. Balpreet S. Ahluwalia, Petter Brox, Øystein Helle, et al., "Near-field waveguide trapping and tracking of particles using fluorescence imaging", Proceedings of SPIE Vol. 8999, 899905 (2014).
    5. Susan Lindecrantz,  Firehun T. Dullo,  Balpreet S. Ahluwalia, et al., "Sensitivity of Mach-Zehnder interferometer for dissolved gas monitoring", Proceedings of SPIE Vol. 8988, 898818 (2014).
    6. Ahluwalia, Balpreet Singh; Hellesø, Olav Gaute. Optical waveguide loop for planar trapping of blood cells and microspheres. Proceedings of SPIE, the International Society for Optical Engineering 2013; Volum 8810 (12). ISSN 0277-786X.s doi:http://dx.doi.org/10.1117/12.2023945.
    7. Pal Lovhaugen, Balpreet S. Ahluwalia, Thomas R. Huser, Peter McCourt and Olav Gaute Helleso, "Optical trapping forces on biological cells on a waveguide surface", Proc. SPIE 7902, 79020N (2011).
    8. Løvhaugen, Pål; Ahluwalia, Balpreet S.; Hellesø, Olav G., “Optical waveguide trapping forces on hollow glass spheres”, Proceedings of the SPIE, Volume 7950, pp. 79500P-79500P-9 (2011). 
    9. B. P. S. Ahluwalia,; Olav Gaute Hellesø; Ananth Z. Subramanian; James S. Wilkinson; Jie Chen; Xuyuan Chen., "Integrated platform based on high refractive index contrast waveguide for optical guiding and sorting", Proc. SPIE 7613, 76130R (2010). Citation : 2
    10. B. P. S. Ahluwalia and Woei M. Lee, "Collinear non-diffracting beams: classification and properties", Proc. SPIE 7613, 76130U (2010).
    11.  Balpreet S Ahluwalia, O.G. Hellesø, A. Z. Subramanian, James S. Wilkinson, Jie Chen and Xuyuan Chen, "Integrated platform based on high refractive index contrast waveguide for optical guiding and sorting", Proc. SPIE 7613, 76130R (2010); Citation: 2
    12. Yuan X.-C., B.P. S Ahluwalia, W. C. Cheong ; Zhang L. S. ; Le W. M. ; Moh K. J.,  Tao S. H. (1) ; Niu H. B.; Peng X., “Design and fabrication of micro-optical elements for the generation of various novel beams and its applications in optical tweezers”, Proc. SPIE 6027, 602709 (2006).
    13. Balpreet Singh Ahluwalia, Xiaocong Yuan and Shaohua Tao, "Self-imaged optical bottle beam based optical tweezers systems", Proc. SPIE 5930, 59300V (2005);
    14. B. P S. Ahluwalia, et. al., "Bottle beam based optical trapping system for three-dimensional trapping of high and low index microparticles", SPIE Proceeding Paper, Vol. 5931 U.S.A (2005).
    15. X.-C. Yuan, W. M. Lee, W. C. Cheong, S. H. Tao, B. S. Ahluwalia, K. J. Moh, M. He, H. B. Niu and X. Peng, “Optical trapping and micromanipulation using micro-beam shaping created by micro-optical elements, Proceedings of SPIE 5636, 27 (2005).
    16.  Xiao-Cong Yuan, Shao Hua Tao, Woei Ming Lee and Balpreet P. S. Ahluwalia, "Selective optical trapping using optical beams with fractional helical phase", Proc. SPIE 5514, 632 (2004);

    Invited International Conference (Since 2014)

    1. Cristina I. Øie, Hong Mao, Ida S. Opstad, Deanna L. Wolfson, Peter A. McCourt, Balpreet S. Ahluwalia, “Mapping sub-cellular nanostructures and functions in a living sinusoidal endothelial liver cell by 3D-structured illumination microscopy”, SPIE Optics & Photonics, San Deigo, USA, 2016 .
    2. Balpreet Singh Ahluwalia*, Deanna L Wolfson, Frank Y. S. Chuang, Thomas Huser,"Optical Nanoscopy of Living Cell Using Structured Illumination Microscopy, ICMAT, Singapore, 2015.
    3. Peter McCourt; Thomas R. Huser; Karen K. Sørensen; Cristina I. Øie; Viola Mönkemöller; Balpreet S. Ahluwalia*, “Optical nanoscopy to reveal structural and functional properties of liver cells”, SPIE Optics & Photonics, USA, 2015.
    4.  B. S. Ahluwalia, Deanna L. Wolfson, Frank Y. S. Chuang, Thomas R. Huser, “Optical nanoscopy of a living cell”, SPIE Optics & Photonics, San Deigo, USA, 2014 
    Selected National and International conference
    1. Balpreet Singh Ahluwalia*, Deanna L Wolfson, Frank Y. S. Chuang, Thomas Huser, "Optical Nanoscopy of Living Cell Using Structured Illumination Microscopy, Invited Paper, ICMAT, Singapore 2015.
    2. B.S. Ahluwalia, P. Løvhaugen, P. McCourt, J.S. Wilkinson, T.R. Huser, and O.G. Hellesø, “Experimental and numerical study of trapping of cells on a waveguide”, World of Photonics Congress, in CLEO/Europe and EQEC, München, Germany 2011. 
    3. P. Løvhaugen, B.S. Ahluwalia, A. Subramanian, J.S. Wilkinson, T.R. Huser and O.G. Hellesø, “Raman spectroscopy of particles trapped on a waveguide loop”, World of Photonics Congress 2011, München, Germany.
    4.  B. P. S. Ahluwalia, et. al., “Propulsion Velocity of Red Blood Cells on Ta2O5 Optical Waveguides”, EOS Annual Meeting, Paris, France, (2010).
    5. 4.   B. P. S. Ahluwalia, et. al., “Optical micro-manipulation of cells on optical waveguide”, Norwegian Electro- Optics Meeting, Norway (2010).
    6. B. P. S. Ahluwalia, “High-index contrast waveguides for microparticle guidance”, Photonics-India, (2008).
    7.  B. P. S. Ahluwalia, “Integration of laser tweezers for ‘continuous’ and ‘selective’ monitoring of photothermal response of micro-particle”, Norwegian Electro-Optics Meeting, Norway (2008).
    8. B. P. S. Ahluwalia, et.al., "Study of Optical Vortex Beam Generated by Fabricated Optical Wedge in Continuous & Polychromatic Regimes," in Frontiers in Optics, OSA Technical Digest FWQ6, USA (2007)
    9. B. S. Ahluwalia, J. Bu, and X. Yuan, "Study of Optical Vortex Beam Generated by Fabricated Optical Wedge in Continuous and Polychromatic Regimes," in Frontiers in Optics, OSA Technical Digest (CD) (Optical Society of America, 2007), paper FWQ6.
    10. X-C. Yuan, B. P. S. Ahluwalia, W. C. Cheong, L. S. Zhang, W. M. Lee, K. J. Moh, J. Lin, and S. H. Tao, "High Efficient Micro-Optical Elements for Optical Vortices in Optical Manipulation," inFrontiers in Optics, OSA Technical Digest Series (Optical Society of America, 2005), paper FWT1.
    11. B. P. S. Ahluwalia, X. Yuan, and S. Tao, "Micro-beam shaping to generate various non-diffracting modes," in Diffractive Optics and Micro-Optics, OSA Technical Digest (Optical Society of America, 2004), paper DMA6.


    Forskningsinteresser

    Optical microscopy/nanoscopy, Bio-imaging, Computational Microscopy, Optical trapping, Integrated Optics,  Raman spectroscopy

    Undervisning

    FYS-8029 Optical nanoscopy - 10 stp




    CV

     

    Funding ID 

    S. No

    Project

    Role

    Funding

    Year

    1

    High-speed chip-based nanoscopy to discover real-time sub-cellular dynamics

    Principal Investigator

    ERC Starting Grant

    Amount: 16 M NOK

    2 Post-Doc & 2 PhDs

    2014-2019

    2.

    Affordable photonic-chip based optical nanoscopy

    Principal Investigator

    ERC Proof-of-Concept

    Amount: 1.5 M NOK

    2017-2019

    3.

    Chip-based MUSICAL nanoscopy for

    imaging endocytosis pathways of phage viruses in liver sinusoidal endothelial cells

    Hosting Principal Investigator

    EU MSCA-IF

    Funding: 1 Post-doc

    Amount: ~2 MNOK

    2017-2019

    4.

    Super-resolution optical microscopy of

    nano sized pore dynamics in endothelial cells (DeLIVER)

    Work Package Leader

    EU: MSCA-ITN

    Funds: 14 PhD/4@UiT

    Amount: ~35 MNOK

    2018-2022

    5.

    Centre for Advanced Nanoscopy to Decode Sub-cellular biological systems

    Principal Investigator

    Tematisksatsing (UiT Strategic Fund)

    Amount: ~13 MNOK

    Support: 4 PhDs

    2016-2020

    6.

    dSTORM on chip, the first entry level super-resolution nanoscopy solution

    Chief Technical Officer

    FORNY (RCN)

    Amount: 7M NOK

    Support: Prototype

    2016-2017

    7.

    Indo-Norway research programme on optics and photonics for bio-medical imaging and environment monitoring.

    Principal Investigator

    Indo-Norway grant (INCP, SIU funding)

    Amount: 1.2 M NOK

    Support: Mobility

    2015-2017

    8.

    High-speed optical super-resolution nanoscopy for live-cell imaging

    Principal Investigator

    IS-DAAD Grant

    Amount: 100K NOK

    Support: Mobility

    2015-2016

    9.

    UiT Infrastructure Grant

    Principal Investigator

    Infrastructure

    Amount: 10 M NOK

    Support: SIM

    2014-2017

    10.

    Integrated platform for optical-squeezing of RBC: A marker for structural deformation for stored blood lesion

    Principal Investigator

    Leiv Eiriksson Grant

    Amount: 300K NOK

    Support: Mobility

    2011-2012

     

    International Association Collaborations

    • Norwegian representative & member of Management Committee in European Unions Cost Action (Cooperation in Science and Technology) TN1301 designed as Targeted Network of: Next Generation of Young Scientist: towards a contemporary spirit of R&I (Sci-GENERATION)
    • International Advisory Board Member for Optical and Photonic Engineering (icOPEN) Conference Singapore
    • Program Committee member in SPIE Optics and Photonics Conference in Nanoimaging and Nanospectroscopy Session
    • International Panel member for Scholarship Committee at SPIE society, USA (2011-2012)
    • SPIE Early Career Professional committee member (2011-2013).
    • Regular Member of the European Optical Society, SPIE and the Optical Society of America and reviewer for various journals papers (Optics letters, Optics express, Lab-on-a-chip, etc).