| |
Wójcik J., Lewandowski M., Żołek N., Grating Lobes Suppression by Adding Virtual Receiving Subaperture in Synthetic Aperture Imaging,
ULTRASONICS, 76, 125-135, 2017 |  |
| |
Wójcik J., Kujawska T., Nowicki A., Lewin P.A., Fast prediction of pulsed nonlinear acoustic fields from clinically relevant sources using time averaged wave envelope approach: comparison of numerical simulations and experimental results,
ULTRASONICS, 48, 707-715, 2008 | |
| |
Trots I., Tasinkiewicz J., Litniewski J., Estimating the ultrasound attenuation coefficient using complementary Golay codes,
ULTRASONICS, 102, 106056-1-9, 2020 | |
| |
Trawiński Z., Hilgertner L., Lewin P.A., Nowicki A., Ultrasonically assisted evaluation of the impact of atherosclerotic plaque on the pulse pressure wave propagation: A clinical feasibility study,
ULTRASONICS, 52, 475-481, 2012 | |
| |
Tasinkiewicz J., Falińska K., Lewin P..A., Litniewski J., Improving broadband ultrasound attenuation assessment in cancellous bone by mitigating the influence of cortical bone: phantom and in-vitro study,
ULTRASONICS, 94, 382-390, 2019 | |
| |
Tasinkevych Y., Trots I., Nowicki A., Mutually orthogonal Golay complementary sequences in the simultaneous synthetic aperture method for medical ultrasound diagnostics. An experimental study,
ULTRASONICS, 115, 106434-1-10, 2021 |  |
| |
Tasinkevych Y., Trots I., Nowicki A., Lewin P.A., Modified synthetic transmit aperture algorithm for ultrasound imaging,
ULTRASONICS, 52, 333-342, 2012 | |
| |
Tasinkevych Y., Podhajecki J., Falińska K., Litniewski J., Simultaneous estimation of cortical bone thickness and acoustic wave velocity using a multivariable optimization approach: Bone phantom and in-vitro study,
ULTRASONICS, 65, 105-112, 2016 | |
| |
Tasinkevych Y., Klimonda Z., Lewandowski M., Nowicki A., Lewin P.A., Modified multi-element synthetic transmit aperture method for ultrasound imaging: A tissue phantom study,
ULTRASONICS, 53, 570-579, 2013 | |
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Secomski W., Bilmin K., Kujawska T., Nowicki A., Grieb P., Lewin P.A., In vitro ultrasound experiments: Standing wave and multiple reflections influence on the outcome,
ULTRASONICS, 77, 203-213, 2017 | |
| |
Radulescu E.G., Lewin P.A., Wójcik J., Nowicki A., Berger W.A., The influence of finite aperture and frequency response of ultrasonic hydrophone probes On the determination of acoustic output,
ULTRASONICS, 42, 1-9, 367-372, 2004 | |
| |
Radulescu E., Wójcik J., Lewin P.A., Nowicki A., Nonlinear Propagation Model for Ultrasound Hydrophones Calibration in Frequency Range up to 100 MHz,
ULTRASONICS, 41, 4, 239-245, 2003 | |
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Radulescu E., Lewin P.A., Wójcik J., Nowicki A., Calibration of Ultrasonic Hydrophone Probes up to 100 MHz using Time Gating Frequency Analysis and Finite Amplitude Wave,
ULTRASONICS, 41, 4, 247-254, 2003 | |
| |
Postema M., Bouakaz A., ten Cate F.J., Schmitz G., de Jong N., van Wamel A., Nitric oxide delivery by ultrasonic cracking: Some limitations,
ULTRASONICS, 44, e109-e113, 2006 | |
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Postema M., Bouakaz A., de Jong N., Noninvasive microbubble-based pressure measurements: a simulation study,
ULTRASONICS, 42, 1-9, 759-762, 2004 | |
