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1. Ultrafast processing of pixel detector data with machine learning frameworks

Author

Blaj, Gabriel, Chang, Chu-En, and Kenney, Christopher J.

Subjects
Physics - Instrumentation and Detectors, Physics - Data Analysis, Statistics and Probability
Abstract

Modern photon science performed at high repetition rate free-electron laser (FEL) facilities and beyond relies on 2D pixel detectors operating at increasing frequencies (towards 100 kHz at LCLS-II) and producing rapidly increasing amounts of data (towards TB/s). This data must be rapidly stored for offline analysis and summarized in real time. While at LCLS all raw data has been stored, at LCLS-II this would lead to a prohibitive cost; instead, enabling real time processing of pixel detector raw data allows reducing the size and cost of online processing, offline processing and storage by orders of magnitude while preserving full photon information, by taking advantage of the compressibility of sparse data typical for LCLS-II applications. We investigated if recent developments in machine learning are useful in data processing for high speed pixel detectors and found that typical deep learning models and autoencoder architectures failed to yield useful noise reduction while preserving full photon information, presumably because of the very different statistics and feature sets between computer vision and radiation imaging. However, we redesigned in Tensorflow mathematically equivalent versions of the state-of-the-art, "classical" algorithms used at LCLS. The novel Tensorflow models resulted in elegant, compact and hardware agnostic code, gaining 1 to 2 orders of magnitude faster processing on an inexpensive consumer GPU, reducing by 3 orders of magnitude the projected cost of online analysis at LCLS-II. Computer vision a decade ago was dominated by hand-crafted filters; their structure inspired the deep learning revolution resulting in modern deep convolutional networks; similarly, our novel Tensorflow filters provide inspiration for designing future deep learning architectures for ultrafast and efficient processing and classification of pixel detector images at FEL facilities., Comment: 9 pages, 9 figures

Published
2019
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2. Dead-time correction for spectroscopic photon counting pixel detectors

Author

Blaj, Gabriel

Subjects
Physics - Instrumentation and Detectors
Abstract

Modern photon counting pixel detectors enabled a revolution in applications at synchrotron light sources and beyond in the last decade. One of the limitations of current detectors is reduced counting linearity or even paralysis at high counting rates, due to dead-time which results in photon pile-up. Existing dead-time and pile-up models fail to reproduce the complexity of dead-time effects on photon counting, resulting in empirical calibrations for particular detectors at best, imprecise linearization methods, or no linearization. This problem will increase in the future as many synchrotron light sources plan significant brilliance upgrades and free-electron lasers plan moving to a quasi-continuous operation mode. We present here the first models that use the actual behavior of the analog pre-amplifiers in spectroscopic photon counting pixel detectors with constant current discharge (e.g., Medipix family of detectors) to deduce more accurate analytical models and optimal linearization methods. In particular, for detectors with at least two counters per pixel, we completely eliminate the need of calibration, or previous knowledge of the detector and beam parameters (dead-time, integration time, large sets of synchrotron filling patterns). This is summarized in several models with increasing complexity and accuracy. Finally, we present a general empirical approach applicable to any particular cases where the analytical approach is not sufficiently precise., Comment: 7 figures

Published
2019
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3. Thin-Entrance Window Process for Soft X-Ray Sensors

Author

Segal, Julie, primary, Kenney, Christopher, additional, Kowalski, Jeffrey M., additional, Kowalski, Jeffrey E., additional, Blaj, Gabriel, additional, Rozario, Lisa, additional, Hasi, Jasmin, additional, Dragone, Angelo, additional, Caragiulo, Pietro, additional, and Rota, Lorenzo, additional

Published
2021
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4. Readout System for ePixHR X-ray Detectors: A Framework and Case Study

Author

Doering, Dionisio, primary, Kwiatkowski, Maciej, additional, Kamath, Umanath R., additional, Tamma, Camillo, additional, Rota, Lorenzo, additional, Ruckman, Larry, additional, Herbst, Ryan T., additional, Reese, Benjamin A., additional, Caragiulo, Pietro, additional, Blaj, Gabriel, additional, Kenney, Christopher J., additional, Haller, Gunther, additional, and Dragone, Angelo, additional

Published
2020
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5. The ePix10k 2-megapixel hard X-ray detector at LCLS

Author

van Driel, Tim Brandt, primary, Nelson, Silke, additional, Armenta, Rebecca, additional, Blaj, Gabriel, additional, Boo, Stephen, additional, Boutet, Sébastien, additional, Doering, Dionisio, additional, Dragone, Angelo, additional, Hart, Philip, additional, Haller, Gunther, additional, Kenney, Christopher, additional, Kwaitowski, Maciej, additional, Manger, Leo, additional, McKelvey, Mark, additional, Nakahara, Kaz, additional, Oriunno, Marco, additional, Sato, Takahiro, additional, and Weaver, Matt, additional

Published
2020
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6. The Magnitude and Waveform of Shock Waves Induced by X-ray Lasers in Water

Author

Stan, Claudiu Andrei, primary, Motomura, Koji, additional, Blaj, Gabriel, additional, Kumagai, Yoshiaki, additional, Li, Yiwen, additional, You, Daehyun, additional, Ono, Taishi, additional, Kalita, Armin, additional, Togashi, Tadashi, additional, Owada, Shigeki, additional, Tono, Kensuke, additional, Yabashi, Makina, additional, Katayama, Tetsuo, additional, and Ueda, Kiyoshi, additional

Published
2020
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10. Thin-Entrance Window Sensors for Soft X-rays at LCLS-II

Author

Segal, Julie D., primary, Kenney, Christopher J., additional, Rozario, Lisa, additional, Blaj, Gabriel, additional, Chang, Chu-En, additional, Hasi, Jasmin, additional, Kowalski, Jeffrey M., additional, Kowalski, Jeffrey E., additional, Dragone, Angelo, additional, Caragiulo, Pietro, additional, Markovic, Bojan, additional, and Tamma, Camillo, additional

Published
2018
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11. Walking and vision in blowflies

Author

Blaj, Gabriel, Blaj, Gabriel, Blaj, Gabriel, and Blaj, Gabriel

Abstract

In this thesis eye movements of walking and flying blowflies are studied in detail. Eye movements of small insects are difficult to measure with a spatio-temporal accuracy comparable with that of the eyes, and current video techniques do not allow an accurate reconstruction of the visual input. In this thesis an existing technique is used, based on search-coils in magnetic fields, which can measure eye movements with a spatio-temporal accuracy comparable to that of the eyes. ... Zie: Samenvatting

Published
2004

12. Negative Pressures and Spallation in Water Drops Subjected to Nanosecond Shock Waves

Author

Stan, Claudiu A., primary, Willmott, Philip R., additional, Stone, Howard A., additional, Koglin, Jason E., additional, Liang, Mengning, additional, Aquila, Andrew L., additional, Robinson, Joseph S., additional, Gumerlock, Karl L., additional, Blaj, Gabriel, additional, Sierra, Raymond G., additional, Boutet, Sébastien, additional, Guillet, Serge A. H., additional, Curtis, Robin H., additional, Vetter, Sharon L., additional, Loos, Henrik, additional, Turner, James L., additional, and Decker, Franz-Josef, additional

Published
2016
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13. Medipix3RX: Characterizing the Medipix3 Redesign With Synchrotron Radiation

Author

Gimenez, Eva N., primary, Ballabriga, Rafael, additional, Blaj, Gabriel, additional, Campbell, Michael, additional, Dolbnya, Igor, additional, Frodjh, Erik, additional, Horswell, Ian, additional, Llopart, Xavier, additional, Marchal, Julien, additional, McGrath, John, additional, Omar, David, additional, Plackett, Richard, additional, Sawhney, Kawal, additional, and Tartoni, Nicola, additional

Published
2015
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14. X-ray detectors at the Linac Coherent Light Source

Author

Blaj, Gabriel, primary, Caragiulo, Pietro, additional, Carini, Gabriella, additional, Carron, Sebastian, additional, Dragone, Angelo, additional, Freytag, Dietrich, additional, Haller, Gunther, additional, Hart, Philip, additional, Hasi, Jasmine, additional, Herbst, Ryan, additional, Herrmann, Sven, additional, Kenney, Chris, additional, Markovic, Bojan, additional, Nishimura, Kurtis, additional, Osier, Shawn, additional, Pines, Jack, additional, Reese, Benjamin, additional, Segal, Julie, additional, Tomada, Astrid, additional, and Weaver, Matt, additional

Published
2015
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15. Detector program for the LCLS complex

Author

Kenney, Chris, primary, Blaj, Gabriel, additional, Caragiulo, Pietro, additional, Carini, Gabriella, additional, Dragone, Angelo, additional, Hart, Philip, additional, Hasi, Jasmine, additional, Herrmann, Sven, additional, Markovic, Bojan, additional, Osier, Shawn, additional, Segal, Julie, additional, Tomada, Astrid, additional, and Haller, Gunther, additional

Published
2014
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16. SSRL/LCLS Users' Meeting and Workshops Draw Hundreds to SLAC

Author

Knotts, Cathy, primary, Carini, Gabriella, additional, Blaj, Gabriel, additional, Hart, Philip, additional, Herrmann, Sven, additional, Perazzo, Amedeo, additional, Liu, Yijin, additional, Sakdinawat, Anne, additional, Toney, Mike, additional, Hoffmann, Matthias, additional, Schlotter, Bill, additional, Turner, Joshua, additional, Ohldag, Hendrik, additional, Mehta, Apurva, additional, Bargar, John R., additional, Hansel, Colleen M., additional, Lee, Jun-Sik, additional, Weng, Tsu-Chien, additional, and Balasubramanian, Mali, additional

Published
2014
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17. The Medipix3RX: a high resolution, zero dead-time pixel detector readout chip allowing spectroscopic imaging

Author

Ballabriga, Rafael, Alozy, Jerome, Campbell, Michael, Fiederle, Michael, Fröjdh, Erik, Heijne, E H M, Blaj, Gabriel, Llopart, Xavier, Pichotka, M, Procz, Simon, Tlustos, Lukas, Wong, Winnie, Ballabriga, Rafael, Alozy, Jerome, Campbell, Michael, Fiederle, Michael, Fröjdh, Erik, Heijne, E H M, Blaj, Gabriel, Llopart, Xavier, Pichotka, M, Procz, Simon, Tlustos, Lukas, and Wong, Winnie

Abstract

The Medipix3 chips have been designed to permit spectroscopic imaging in highly segmented hybrid pixel detectors. Spectral degradation due to charge sharing in the sensor has been addressed by means of an architecture in which adjacent pixels communicate in the analog and digital domains on an event-by-event basis to reconstruct the deposited charge in a neighbourhood prior to the assignation of the hit to a single pixel. The Medipix3RX chip architecture is presented. The first results for the characterization of the chip with 300 μm thick Si sensors are given. ~ 72e− r.m.s. noise and ~ 40e− r.m.s. of threshold dispersion after chip equalization have been measured in Single Pixel Mode of operation. The homogeneity of the image in Charge Summing mode is comparable to the Single Pixel Mode image. This demonstrates both modes are suitable for X-ray imaging applications.

Published
2013
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19. Quantized hard-x-ray phase vortices nucleated by aberrated nanolenses

Author

Pavlov, Konstantin M., primary, Paganin, David M., additional, Vine, David J., additional, Schmalz, Jelena A., additional, Suzuki, Yoshio, additional, Uesugi, Kentaro, additional, Takeuchi, Akihisa, additional, Yagi, Naoto, additional, Kharchenko, Alexander, additional, Blaj, Gabriel, additional, Jakubek, Jan, additional, Altissimo, Matteo, additional, and Clark, Jesse N., additional

Published
2011
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