Publication

For the latest and complete list of publications including preprints, abstracts, and patents, see my google scholar page.

Upcoming (extracted)

  • K Maeda et al, “An integrated heterogeneous computing framework for ensemble simulations of laser-induced ignition" submitted, [arXiv] [PDF].

  • K Maeda and D Futer, "Regressing bubble cluster dynamics as a disordered many-body system", in revision, [arXiv] [PDF].

2021

  • K Maeda and AD Maxwell, "Controlling the dynamics of cloud cavitation bubbles through acoustic feedback", Physical Review Applied, 15, 034033, 2021. [DOI][PDF].

  • K Maeda, M Date, K Sugiyama, S Takagi and Y Matsumoto, “Viscid-inviscid interactions of pairwise bubbles in a turbulent channel flow and their implications for bubble clustering", Journal of Fluid Mechanics, 919, A30, 2021. [DOI][PDF]

  • C Shao, K Maeda, and M Ihme, “Analysis of core-noise contributions in a realistic gas-turbine combustor operated near lean blow-out”, Proceedings of the Combustion Institute, 38.4: 6203-6211, 2021. [DOI]

  • K Maeda and D Fuster, “On the cloud interaction parameter and its connections with the coherence and discrete spectrum of bubble cloud dynamics”, 11th International Cavitation Symposium (CAV2021), 2021. [PDF]

  • K Maeda and T Teixeira, “Application-oriented investigation of task-based ensemble co-processing on heterogeneous supercomputers”, Center for Turbulence Research Annual Research Brief, Stanford University, 2021. [URL]

  • K Maeda, JM Wang, and M Di Renzo, “Assessment of a high-order curvilinear finite difference method for compressible reacting flows”, Center for Turbulence Research Annual Research Brief, Stanford University, 2021. [URL]

2020

  • K Maeda, "Toward modeling rocket nozzles through artificial boundary conditions", Center for Turbulence Research Annual Research Brief, Stanford University, 2020. [URL]

  • SH Bryngelson, K Schmidmayer, V Coralic, JC Meng, K Maeda, T Colonius, "MFC: An open-source high-order multi-component, multi-phase, and multi-scale compressible flow solver", Computer Physics Communications, 107396, 2020. [DOI]

  • (Conference abstract) K Maeda,, “CT-based simulation of ultrasound propagation and cavitation in the human body for the assessment of acoustic therapy monitoring in high intensity focused ultrasound”, The Journal of the Acoustical Society of America, 148(4), 2519, 2020 [DOI].

2019

  • K Maeda and T Colonius, Bubble cloud dynamics in an ultrasound field, Journal of Fluid Mechanics, 862, 1105-1134, 2019. [DOI] [PDF]

  • YA Pishchalnikov, W Behnke-Parks, K Schmidmayer, K Maeda, T Colonius, T Kenny, and D Laser, High-speed video microscopy and numerical modeling of bubble dynamics near a surface of urinary stone, Journal of the Acoustical Society of America, 146(1), 516, 2019. [DOI] [PDF]

  • JL Callaham, K Maeda, SL Brunton, “Robust flow reconstruction from limited measurements via sparse representation”, Physical Review Fluids, 4(10), 103907, 2019. [DOI]

  • K Maeda and M Ihme, "Entropy-bounded discontinuous-Galerkin simulation of trans- and supercritical fluid flows", Center for Turbulence Research Annual Research Brief, Stanford University, 2019. [URL]

  • C Shao, K Maeda, and M Ihme, "On the core-noise analysis coupling of a model gas-turbine combustor and nozzle", Center for Turbulence Research Annual Research Brief, Stanford University, 2019. [URL]

  • K Maeda and AD Maxwell, "Acoustic monitoring and characterization of the dynamics of cavitation bubble clouds toward feedback controlled lithotripsy”, The 10th International Conference on Multiphase Flow (ICMF 2019), 2019.

  • K Maeda and AD Maxwell, "Neural-network based acoustic monitoring of cavitation in lithotripsy", Engineering and Urology Society/American Urological Association's 2019 Annual Meeting​.

2018

  • K Maeda, AD Maxwell, T Colonius, W Kreider, and MR Bailey, Energy shielding of kidney stones by cavitation bubble clouds in Burst Wave Lithotripsy, The Journal of the Acoustical Society of America, 144(5), 2952, 2018. [DOI][PDF]

  • K Maeda and T Colonius, Eulerian-Lagrangian method for simulation of cloud cavitation, Journal of Computational Physics, 371, 994-1017, 2018. [DOI] [PDF]

  • K Maeda, T Colonius, AD Maxwell, W Kreider, and MR Bailey, Modeling and numerical simulation of the bubble cloud dynamics in an ultrasound field for burst wave lithotripsy, Proceedings of Meetings on Acoustics, Vol. 35, 020006, 2018. [DOI] [PDF]

  • YA Pishchalnikov, W Behnke-Parks, K Maeda, T Colonius, M Mellema, M Hopcroft, A Luong, S Wiener, M Stoller, T Kenny, and D Laser, Experimental observations and numerical modeling of lipid-shell microbubbles with stone targeting moieties for minimally-invasive treatment of urinary stones, Proceedings of Meetings on Acoustics, Vol. 35, 020008, 2018. [DOI] [PDF]

  • K Maeda, AD Maxwell, W Kreider, T Colonius and MR Bailey, “Investigation of the Energy Shielding of Kidney stones by cavitation bubble clouds during burst wave lithotripsy”, 10th International Cavitation Symposium (CAV2018), 2018. [PDF]

  • K Maeda and T Colonius, “Numerical simulation of the bubble cloud dynamics in an ultrasound Field”, 10th International Cavitation Symposium (CAV2018), 2018. [PDF]

  • J Veilleux, K Maeda, T Colonius and JE Shepherd, “Transient cavitation in pre-filled syringes during autoinjector activation”, 10th International Cavitation Symposium (CAV2018), 2018. [PDF]

  • M Bode, F Lehn, K Maeda, T Colonius and H Pitsch, “An equation-of-state tabulation approach for injectors with non-condensable gases: Development and analysis”, 10th International Cavitation Symposium (CAV2018), 2018. [PDF]

  • (Conference abstract) YA Pishchalnikov, W Behnke-Parks, M Mellema, M Hopcroft, A Luong, T Colonius, K Maeda, K Morrison, and D Laser, “Urinary stone erosion and fragmentation under low-intensity quasi-collimated ultrasound using gas-filled microbubbles with stone-targeting lipid shells”, The Journal of the Acoustical Society of America, 143 (3), 1861, 2018. [DOI]

2017

  • K Maeda and T Colonius, A source term approach for generation of one-way acoustic waves in the Euler and Navier-Stokes equations, Wave Motion, 75, 36-49, 2017, [DOI] [PDF]

  • (Conference abstract) K Maeda, T Colonius, W Kreider, A Maxwell and M Bailey, “Quantification of the shielding of kidney stones by bubble clouds during burst wave lithotripsy”, The Journal of the Acoustical Society of America, 141 (5), 3673, 2017. (Invited) [DOI]

2016

  • (Conference abstract) K Maeda, T Colonius, W Kreider, A Maxwell, and M Bailey, “Modeling and experimental analysis of acoustic cavitation bubble clouds for burst-wave lithotripsy”, The Journal of the Acoustical Society of America, 140 (4), 3307, 2016. [DOI]

2015

  • K Maeda, W Kreider, AD Maxwell, B Cunitz, T Colonius, and MR Bailey, Modeling and experimental analysis of acoustic cavitation bubbles for Burst Wave Lithotripsy, J. Phys.: Conf. Ser., 656, 012027, 2015, [DOI] [PDF]

  • K Maeda, H Onoe, M Takinoue, and S. Takeuchi, Manipulation and solidification of a liquid jet under ultra-high centrifugal gravity, Micromachines, 6 (10), 1526-1533, 2015, [DOI] [PDF]

2014

  • K Maeda, G Blanquart, and T Colonius, "Internal report for the Energent project", Technical Report, California Institute of Technology, 2014. [PDF]

2013

  • K Maeda, M Date, T Ogasawara, K Sugiyama, S Takagi, and Y Matsumoto, “On the motion of a pair of bubbles rising near-wall in a vertical channel bubbly flow”, The 8th International Conference on Multiphase Flow (ICMF 2013), 2013. [PDF]

2012

  • K Maeda, H Onoe, M Takinoue, and S. Takeuchi, Controlled synthesis of 3D multi-compartmental particles with centrifuge-based microdroplet formation from a multi-barreled capillary, Advanced Materials, 24 (10), 1340-1346, 2012. [DOI] [PDF], Inside cover of the issue. Highlighted in Nature. [DOI]

  • (Conference abstract) K Maeda, H Onoe, M Takinoue, and S Takeuchi, "Instantaneous solidification of a centrifuge-driven capillary jet with controlled hydrodynamic instability in a centrifuge-based droplet shooting device through observational analysis", The 16th International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS 2012), pp. 878-880, Chemical and Biological Microsystems Society, 2012. [URL]

2011

  • (Conference abstract) K Maeda, M Takinoue, H Onoe, S Takeuchi, "A centrifuge-based droplet shooting device for the synthesis of multi-compartmental microspheres under ultra-high gravity", The 15th International Conference on Miniaturized Systems for Chemistry and Life Sciences 2011 (MicroTAS 2011), pp. 12-14, Chemical and Biological Microsystems Society, 2011. [URL]