Slides and Posters

Slides from my talks

Machine Learning

2022.07.01	Quantum Machine Learning; PDF
2022.02.02	Getting started with Flax; Jupyter notebook
2021.08.11	Journal Club: Tokens-to-Token ViT: Training Vision Transformers from Scratch on ImageNet; Jupyter notebook
2021.05.12	Journal Club: Perceiver: General Perception with Iterative Attention; Jupyter notebook
2021.03.23	Journal Club: Bottleneck Transformers for Visual Recognition; Jupyter notebook
2021.02.24	Transformer for audio data; Jupyter notebook
2021.02.09	Getting started with PyTorch Ignite; Jupyter notebook
2021.02.02	Journal Club: WaveNet; Jupyter notebook
2021.01.13	Getting started with Julia and Flux.jl; Pluto notebook
2020.11.12	Getting started with PyTorch Lightning; Jupyter notebook
2020.10.28	Getting started with Trax; Jupyter notebook
2020.10.21	Journal Club: An Image is Worth 16x16 Words: Transformers for Image Recognition at Scale; Jupyter notebook
2020.09.30	Explanation of minGPT; Jupyter notebook
2020.09.21	Getting started with Jupyter; Jupyter notebook
2020.09.03	PixelShuffle for image upsampling; Jupyter notebook
2020.08.25	Neural network training tricks II; Jupyter notebook
2020.07.29	Journal Club: Spatial Group-wise Enhance; Jupyter notebook
2020.02.21	Neural network training tricks; Jupyter notebook
2019.10.28	Differential equations and neural networks; PDF
2018.05.08	Getting started with Python: NumPy and Matplotlib
2018.04.12	Getting started with Python

Physics

2022.07.01	Quantum Machine Learning; PDF
2020.03.04	Simplest quantum algorithms; PDF
2018.11.22	Adiabatic pulse propagation in multi-level systems; PDF
2017.07.10	Nonlinear quantum optics for spinor slow light; PDF
2017.05.23	Journal Club: Experimental nonlocal and surreal Bohmian trajectories; PDF
2017.02.27	Adiabatic approximation and various Berry curvatures in spin-orbit coupled systems; PDF
2017.02.14	Journal Club: Exotic looped trajectories of photons in three-slit interference; PDF
2016.09.24	Engineering of correlated photon pairs via interaction between Rydberg atoms during the storage of slow light; PDF
2016.08.04	Spin-orbit coupling for ultracold atoms and for slow light; PDF
2016.05.30	Journal Club: Two-Phonon Quantum Coherences in Indium Antimonide Studied by Nonlinear Two-Dimensional Terahertz Spectroscopy; PDF
2016.04.28	Slow and stored light using Rydberg atoms; PDF
2016.04.08	Journal Club: Critical wind speed at which trees break; PDF
2016.03.08	Journal Club: Heralded entanglement between solid-state qubits separated by three metres; PDF
2015.11.23	Journal Club: Observation of thermal Hawking radiation and its entanglement in an analogue black hole; PDF
2015.11.16	Journal Club: Measurement-based control of a mechanical oscillator at its thermal decoherence rate; PDF
2015.07.15	1/f noise arising from time-subordinated Langevin equations; PDF
2014.10.18	Rydberg-Raman slow light: A spectrosopic tool to measure the interaction between the Rydberg atoms; PDF
2014.09.10	Continuous transition from the extensive to the non-extensive statistics in a simple model; PDF
2014.07.11	Power-law statistics from nonlinear stochastic differential equations driven by Lévy stable noise; PDF
2013.09.19	Artificial gauge fields in extra dimensions; PDF
2012.08.28	Nonlinear stochastic differential equations and 1/f noise; PDF
2012.07.19	Multi-component slow light in atomic media; PDF
2011.09.03	Storing and releasing of multi-component slow light in atomic media; PDF
2011.05.03	Multi-component slow light. Exchange of orbital angular momentum between slow light and cold atoms; PDF
2011.03.17	Solutions of nonlinear stochastic differential equations with long-range power-law distributions; PDF
2010.09.25	Light-induced Artificial Magnetic Field for Cold Atoms; PDF
2010.08.30	Light-induced Gauge Potentials for Cold Atoms; PDF
2010.08.26	Light-induced Abelian and non-Abelian gauge potentials for cold atoms; PDF
2010.01.19	External non-Abelian gauge fields for cold atoms; PDF
2009.03.02	Modeling Tsallis distributions by nonlinear stochastic differential equations with application to financial markets; PDF
2006.09.03	Quantum Zeno and anti-Zeno effects: Quantum trajectory method; PDF
2006.06.26	Modeling point processes by the stochastic differential equation; PDF
2005.10.24	Light-induced Abelian and non-Abelian gauge potentials for ultracold atoms; PDF

Slides in lithuanian

2022.05.25	Kvantinės technologijos; PDF
2018.09.12	Labai šaltos dujos, lėta šviesa ir Rydbergo atomai; PDF
2016.09.13	Ar kvantiniai kompiuteriai pakeis pasaulį?; PDF
2016.07.19	Mintys apie reliatyvumo teoriją; PDF
2014.06.05	Kuo kvantinė susietis skiriasi nuo mums įprastų didelio pasaulio reiškinių?; PDF
2013.01.14	Bell'o nelygybė; PDF
2013.01.09	EPR Paradoksas; PDF
2011.09.28	Daugiakomponenčiai lėtieji poliaritonai šaltųjų atomų dujose; PDF
2011.08.05	Netikėti atsakymai į klausimus apie atomus; PDF
2011.05.20	Kodėl nereikia bijoti Schrödingerio katino? Įvadas į kvantinę mechaniką; PDF
2010.04.14	Sustabdyta šviesa ir kitos keistenybės: šviesos sklidimas daugelio lygmenų sistemose; PDF
2009.03.31	Atomu duju šaldymas; PDF
2008.07.19	Labai šaltu atomu duju saveika su šviesa; PDF
2008.05.16	Labai šaltų atomų dujos ir elementariųjų daleliu fizika; PDF
2006.01.04	Šviesos sukurti abeliniai ir neabeliniai kalibruotiniai potencialai labai šaltų atomų dujose; PDF

Posters

2018	Nonlinear quantum optics for spinor slow light; PDF
2017	Phase-space curvature in spin-orbit coupled ultracold atomic systems; PDF
2015	Synthetic gauge fields in synthetic dimensions; PDF
2015	Position-dependent spin-orbit coupling for ultracold atoms; PDF
2013	Intermittency generating 1/f noise; PDF
2013	1/f noise and q-Gaussian distribution from nonlinear stochastic differential equations; PDF
2011	Multicomponent Slow Light; PDF
2011	An analytical approach to the spectrum of π electrons in bilayer graphene nanoribbons and nanotubes; PDF
2010	Nonextensive statistics with application to financial processes based on nonlinear stochastic differential equations; PDF
2009	Multicomponent slow and stationary polaritons in atomic gases; PDF
2009	Nonlinear stochastic differential equation as the background of financial fluctuations; PDF