Journal papers

  1. Redo-Sanchez, A., Luesia-Lahoz, P., Gutierrez, D., & Muñoz, A. (2024). Cohesive framework for non-line-of-sight imaging based on Dirac notation. Optics Express, 32(6), 10505–10526. doi: 10.1364/oe.518466
  2. Luesia, P., Crespo, M., Jarabo, A., & Redo-Sanchez, A. (2022). Non-line-of-sight imaging in the presence of scattering media using phasor fields. Optics Letters, 47(15), 3796–3799. doi: 10.1364/ol.463296
  3. Melios, C., Huang, N., Callegaro, L., Centeno, A., Cultrera, A., Cordon, A., Panchal, V., Arnedo, I., Redo-Sanchez, A., Etayo, D., Fernandez, M., Lopez, A., Rozhko, S., Txoperena, O., Zurutuza, A., & Kazakova, O. (2020). Towards standardisation of contact and contactless electrical measurements of CVD graphene at the macro-, micro- and nano-scale. Scientific Reports, 10(1), 3223. doi: 10.1038/s41598-020-59851-1
  4. Cultrera, A., Serazio, D., Zurutuza, A., Centeno, A., Txoperena, O., Etayo, D., Cordon, A., Redo-Sanchez, A., Arnedo, I., Ortolano, M., & Callegaro, L. (2019). Mapping the conductivity of graphene with Electrical Resistance Tomography. Scientific Reports, 9(1), 10655. doi: 10.1038/s41598-019-46713-8
  5. Mackenzie, D. M. A., Whelan, P. R., Bøggild, P., Jepsen, P. U., Redo-Sanchez, A., Etayo, D., Fabricius, N. & Petersen, D. H. (2018). Quality assessment of terahertz time-domain spectroscopy transmission and reflection modes for graphene conductivity mapping. Optics Express, 26(7), 9220. doi: 10.1364/oe.26.009220
  6. Heshmat, B., Andrews, G. M., Naranjo-Montoya, O. A., Castro-Camus, E., Ciceri, D., Redo-Sanchez, A., Allanore, A., Kmetz, A. A., Eichmann, S., Poitzsch, M. E., & Raskar, R. (2017). Terahertz scattering and water absorption for porosimetry. Optics Express, 25(22), 27370. doi: 10.1364/oe.25.027370
  7. Aghasi, A., Heshmat, B., Redo-Sanchez, A., Romberg, J., & Raskar, R. (2016). Sweep distortion removal from terahertz images via blind demodulation. Optica, 3(7), 754–762. doi: 10.1364/optica.3.000754
  8. Redo-Sanchez, A., Heshmat, B., Aghasi, A., Naqvi, S., Zhang, M., Romberg, J., & Raskar, R. (2016). Terahertz time-gated spectral imaging for content extraction through layered structures. Nature Communications, 7(1), 12665. doi: 10.1038/ncomms12665
  9. Redo-Sanchez, A., Laman, N., Schulkin, B., & Tongue, T. (2013). Review of Terahertz Technology Readiness Assessment and Applications. Journal of Infrared, Millimeter, and Terahertz Waves, 34(9), 500–518. doi: 10.1007/s10762-013-9998-y
  10. Seco-Martorell, C., López-Domínguez, V., Arauz-Garofalo, G., Redo-Sanchez, A., Palacios, J., & Tejada, J. (2013). Goya’s artwork imaging with Terahertz waves. Optics Express, 21(15), 17800. doi: 10.1364/oe.21.017800
  11. Riley, M., Redo-Sanchez, A., Karampourniotis, P., Plawsky, J., & Lu, T.-M. (2012). Nanostructured porous silicon films for terahertz optics. Nanotechnology, 23(32), 325301. doi: 10.1088/0957-4484/23/32/325301
  12. Redo-Sanchez, A., Salvatella, G., Galceran, R., Roldós, E., García-Reguero, J.-A., Castellari, M., & Tejada, J. (2011). Assessment of terahertz spectroscopy to detect antibiotic residues in food and feed matrices. Analyst, 136(8), 1733–1738. doi: 10.1039/c0an01016b
  13. Redo-Sanchez, A., & Zhang, X.-C. (2011). Self-referenced method for terahertz wave time-domain spectroscopy. Optics Letters, 36(17), 3308. doi: 10.1364/ol.36.003308
  14. Redo-Sanchez, A., Kaur, G., Zhang, X.-C., Buersgens, F., & Kersting, R. (2009). 2-D Acoustic Phase Imaging with Millimeter-Wave Radiation. IEEE Transactions on Microwave Theory and Techniques, 57(3), 589–593. doi: 10.1109/tmtt.2009.2013306
  15. Song, Q., Zhao, Y., Redo-Sanchez, A., Zhang, C., & Liu, X. (2009). Fast continuous terahertz wave imaging system for security. Optics Communications, 282(10), 2019–2022. doi: 10.1016/j.optcom.2009.02.019
  16. Redo-Sanchez, A., & Zhang, X.-C. (2008). Terahertz Science and Technology Trends. IEEE Journal of Selected Topics in Quantum Electronics, 14(2), 260–269. doi: 10.1109/jstqe.2007.913959
  17. Zhong, H., Redo-Sanchez, A., & Zhang, X.-C. (2007). Standoff Sensing and Imaging of Explosive Related Chemical and Bio-Chemical Materials Using THz-TDS. International Journal of High Speed Electronics and Systems, 17(02), 239–249. doi: 10.1142/s0129156407004461
  18. Zhong, H., Redo-Sanchez, A., & Zhang, X.-C. (2006). Identification and classification of chemicals using terahertz reflective spectroscopic focal-plane imaging system. Optics Express, 14(20), 9130. doi: 10.1364/oe.14.009130
  19. Redo-Sanchez, A., Tejada, J., & Bohigas, X. (2006). Bubble Detector in Polyurethane Applications Based on a Microwave System. IEEE Sensors Journal, 6(4), 939–944. doi: 10.1109/jsen.2006.877999

Conference papers

  1. Cordon, A., Miranda, L., Martinez, C., Ines, A., Etayo, D., Fernandez, M., Rodriguez, P., Taboada, E., Redo-Sanchez, A., Castrillo, M., Laso, A. G. Miguel, & Arnedo, I. (2019). THz to Inspect Graphene and Thin Film Materials (IEEE, Ed.). doi: 10.1109/irmmw-thz.2019.8874447
  2. Callegaro, L., Cassiago, C., Cultrera, A., D’Elia, V., Serazio, D., Ortolano, M., Marzano, M., Kazakova, O., Melios, C., Raso, F., Matias, L., Zurutuza, A., Centeno, A., Redo-Sanchez, A., Kretinin, A., Sann-Ferro, K., Fabricius, A., Weking, G., Bergholz, W., & Fabricius, N. (2018). GRACE: Developing Electrical Characterisation Methods for Future Graphene Electronics. doi: 10.1109/cpem.2018.8501012
  3. Satat, G., Heshmat, B., Naik, N., Redo-Sanchez, A., & Raskar, R. (2016). Advances in ultrafast optics and imaging applications. Ultrafast Bandgap Photonics, 98350Q-98350Q – 13. doi: 10.1117/12.2222438
  4. Redo-Sanchez, A., Laman, N., Schulkin, B., & Tongue, T. (2014). Non-destructive imaging with compact and portable terahertz systems. AIP Conference Proceedings, 1581(1), 1583–1587. doi: 10.1063/1.4865012
  5. Redo-Sanchez, A., Laman, N., Schulkin, B., & Tongue, T. (2013). Compact, portable Terahertz systems for on-site inspection applications. 2013 38th International Conference on Infrared, Millimeter, and Terahertz Waves (IRMMW-THz), 1–1. doi: 10.1109/irmmw-thz.2013.6665510
  6. Song, Q., Redo-Sanchez, A., Zhao, Y., & Zhang, C. (2008). High speed imaging with CW THz for security. 2008 International Conference on Optical Instruments and Technology: Optoelectronic Measurement Technology and Applications, 716016-716016–716018. doi: 10.1117/12.807197
  7. Zhong, H., Redo-Sanchez, A., Chen, Y., & Zhang, X.-C. (2006). THz wave standoff detection of explosive materials. Terahertz for Military and Security Applications IV, 62120L-62120L – 8. doi: 10.1117/12.665360
  8. Redo-Sanchez, A., Karpowicz, N., Xu, J., & Zhang, X.-C. (2006). Damage and defect inspection with terahertz waves. The 4th International Workshop on Ultrasonic and Advanced Methods for Nondestructive Testing and Material Characterization.
  9. Zhong, H., Redo-Sanchez, A., Chen, Y., & Zhang, X.-C. (2005). Standoff Distance Detection of Explosive Materials with THz Waves. 2005 Joint 30th International Conference on Infrared and Millimeter Waves and 13th International Conference on Terahertz Electronics, 1, 42–43. doi: 10.1109/icimw.2005.1572397

Invited talks

  1. Onyx 2D materials inspector. Graphene Conference, Barcelona, Large-scale manufacturing graphene and talk in Barcelona, March 30th 2017.
  2. Terahertz in art and cultural heritage inspection: present and future. Eastern Analytical Symposium, Somerset NJ, Nov. 16th 2015.
  3. Cultural heritage inspection applications with terahertz waves based on reading a closed book. Primera Reunion Mexicana de Ciencia y Tecnologia de Terahertz, Leon, Guanajuato, Mexico, Oct. 2015.
  4. Portable open-field terahertz instrumentation. Pittcon conference, Philadelphia PA, United States, Mar. 2013.
  5. Zomega terahertz corporation overview. RFIC panel sessions, Montreal, Canada, June 2012.
  6. Frontiers of terahertz time-domain imaging. Arizona State University, Tempe AZ, United States, Jan. 2012.
  7. THz time-domain spectroscopy for food and pharmaceutical applications. Universitat de Barcelona, Barcelona, Spain, Jan. 2010.
  8. Terahertz science and technology review. Universidad Politecnica de Madrid, Madrid, Spain, July 2009.
  9. Terahertz science and technology review. Universitat Politecnica de Catalunya, Barcelona, Spain, May 2009.
  10. Terahertz science and technology for security applications. Upstate New York electronic crimes coalition conference, Troy NY, United States, Nov. 2007.
  11. Sensing explosive and related compounds with terahertz technology: from laboratory demonstration to open field applications. Gordon Research Conference, Big Sky MT, United States, Sept. 2007.
  12. Damage and defect inspection with terahertz waves. University at Dartmouth, Dartmouth MA, United States, June 2006.
  13. Continuous-wave terahertz systems. Capital Normal University, Beijing, China, Mar. 2006.
  14. Sensing and imaging with CW terahertz systems. Quantitative Non-Destructive Evaluation Conference, Brunswick ME, United States, July 2005.
  15. Sensing and imaging with continuous-wave terahertz. Rensselaer Polytechnic Institute, Troy NY, United States, Oct. 2005.
  16. Terahertz applications in solid state physics. University of Barcelona, Barcelona, Spain, Sept. 2005.

Seminars and workshops

  1. Terahertz spectroscopy workshop. EPFL, Lausanne, Switzerland, Feb. 2013.
  2. Terahertz instrumentation status and market outlook. 2012 Workshop on terahertz science instruments and frontier technology, Beijing, China, Aug. 2012.
  3. Practical guide to develop terahertz systems. Universitat Politècnica de Catalunya, Barcelona, Spain, June 2010.
  4. Terahertz systems integration constraints. Universitat Politècnica de Catalunya, Barcelona, Spain, May 2009.

Patents

  1. Dehkordi, B. H., Barsi, C., Ting, I.-H., Redo-Sanchez, A., & Mehta, A. A. (2023). Display systems and imaging systems with dynamically controllable optical path lengths. United States Patent and Trademark Office, Patent No. US-11662591-B1.
  2. Dehkordi, B. H., Mehta, A. A., Barsi, C., Redo-Sanchez, A., & Raskar, R. (2023). Methods, systems, apparatuses, and devices for facilitating stress-adaptive virtual experience stations. United States Patent and Trademark Office, Patent No. US-20230191077-A1.
  3. Dehkordi, B. H., Redo-Sanchez, A., Andrews, G. M., & Raskar, R. (2021). Methods and apparatus for high resolution imaging with reflectors at staggered depths beneath sample. United States Patent and Trademark Office, Patent No. US-11016309-B2.
  4. Dehkordi, B. H., Redo-Sanchez, A., Raskar, R., Aghasi, A., & Romberg, J. (2020). Methods and apparatus for imaging of layers. United States Patent and Trademark Office, Patent No. US-10796190-B2.
  5. Sinha, S., Park, H., Redo-Sanchez, A., Lawson, M. E., Savidis, N., Rachapudi, P., Raskar, R., & Patalano, V. (2018). Methods and Apparatus for Anterior Segment Ocular Imaging. United States Patent and Trademark Office, Patent No. US-10105049-B2.
  6. López-Zorzano, A., Etayo-Salinas, D., Fernández-Vallejo, M., Chudzik, M., Redo-Sanchez, A., & Azanza-Ladrón, E. (2018). Method for Characterising a Material with Layered Structure and a Measuring System. European Patent Office, Patent No. EP-3516373.
  7. Redo-Sanchez, A. (2004). Device for separating, lifting and moving aluminium sheets or other non-ferromagnetic material. United States Patent and Trademark Office, Patent No. US-6746063-B1.