An NFFT based approach to the efficient computation of dipole-dipole interactions under different periodic boundary conditions

Nestler, Franziska

11 June 2015

We present an efficient method to compute the electrostatic fields, torques and forces in dipolar systems, which is based on the fast Fourier transform for nonequispaced data (NFFT). We consider 3d-periodic, 2d-periodic, 1d-periodic as well as 0d-periodic (open) boundary conditions. The method is based on the corresponding Ewald formulas, which immediately lead to an efficient algorithm only in the 3d-periodic case. In the other cases we apply the NFFT based fast summation in order to approximate the contributions of the nonperiodic dimensions in Fourier space. This is done by regularizing or periodizing the involved functions, which depend on the distances of the particles regarding the nonperiodic dimensions. The final algorithm enables a unified treatment of all types of periodic boundary conditions, for which only the precomputation step has to be adjusted.

Schnelle Fourier-Transformation

Ewald summation

nonequispaced fast Fourier transform

particle methods

dipole-dipole interactions

mixed periodicity

NFFT

P2NFFT

P3M

ddc:518

Schnelle Fourier-Transformation

An NFFT based approach to the efficient computation of dipole-dipole interactions under different periodic boundary conditions

Nestler, Franziska

11 June 2015

We present an efficient method to compute the electrostatic fields, torques and forces in dipolar systems, which is based on the fast Fourier transform for nonequispaced data (NFFT). We consider 3d-periodic, 2d-periodic, 1d-periodic as well as 0d-periodic (open) boundary conditions. The method is based on the corresponding Ewald formulas, which immediately lead to an efficient algorithm only in the 3d-periodic case. In the other cases we apply the NFFT based fast summation in order to approximate the contributions of the nonperiodic dimensions in Fourier space. This is done by regularizing or periodizing the involved functions, which depend on the distances of the particles regarding the nonperiodic dimensions. The final algorithm enables a unified treatment of all types of periodic boundary conditions, for which only the precomputation step has to be adjusted.

info:eu-repo/classification/ddc/518

ddc:518

Schnelle Fourier-Transformation

Schnelle Fourier-Transformation

DIPOLE-DIPOLE INTERACTIONS IN ORDERED AND DISORDERED NANOPHOTONIC MEDIA

Thrinadha Ashwin Kumar Boddeti (16497417)

06 July 2023

<p>Dipole-dipole interactions are ubiquitous fundamental physical phenomena that govern physical effects such as Casimir Forces, van der Waals forces, collective Lamb shifts, cooperative decay, and resonance energy transfer. These interactions are associated with real and virtual photon exchange between the interacting emitters. Such interactions are crucial in realizing quantum memories, novel super-radiant light sources, and light-harvesting devices. Owing to this, the control and modification of dipole-dipole interactions have been a longstanding theme. The electromagnetic environment plays a crucial role in enhancing the range and strength of the interactions. This work focuses on modifying the nanophotonic environment near interacting emitters to enhance dipole-dipole interactions instead of spontaneous emission. To this end, we focus on engineering the nanophotonic environment to enhance the strength and range of dipole-dipole interactions between an ensemble of emitters. We explore ordered and disordered nanophotonic structures. We experimentally demonstrate long-range dipole-dipole interactions mediated by surface lattice resonances in a periodic plasmonic nanoparticle lattice. Further, the modified electromagnetic environment reduces the apparent dimensionality of the interacting system compared to non-resonant in-homogeneous and homogeneous environments. We also develop a spectral domain inverse design technique for the accelerated discovery of disordered metamaterials with unique spectral features. </p> <p>Further, we explore the novel regimes of light localization at near-zero-index in such disordered media. The disordered near-zero-index medium reveals enhanced localization and near-field chirality. This work paves the way to engineer the electromagnetic nanophotonic environment to realize enhanced long-range dipole-dipole interactions.</p>

Classical and physical optics

Quantum optics and quantum optomechanics

Dipole-dipole interactions

Many-body dynamics

Collective effects

Quantum Opics

Green's functions.

Disordered Media

Epsilon Near Zero

Математическое моделирование процесса поглощения энергии переменного поля в феррожидкостях и феррокомпозитах как основа развития метода магнитной гипертермии : магистерская диссертация / Mathematical modeling of the process of absorption of energy of an alternating field in ferrofluids and ferrocomposites as the basis for the development of the method of magnetic hyperthermia

Кузнецова, А. А., Kuznetsova, A. A.

January 2022

В данной работе, основываясь на решении уравнения Фоккера-Планка-Брауна аналитически определена динамическая магнитная восприимчивость обездвиженных магнитных частиц к слабым переменным магнитным полям с учетом межчастичных диполь-дипольных взаимодействий. Полученное решение, а также известные из литературы аналитические и численные данные динамической восприимчивости систем подвижных и обездвиженных взаимодействующих магнитных частиц использовались для моделирования и анализа удельной поглощаемой мощности в зависимости от режимных параметров рассматриваемой системы. / In that work, based on the solution of the Fokker-Planck-Brown equation, the dynamic magnetic susceptibility of immobilized magnetic particles to weak alternating magnetic fields is analytically determined taking into account interparticle dipole-dipole interactions. The solution obtained, as well as the analytical and numerical data of the dynamic susceptibility of systems of moving and immobilized interacting magnetic particles known from the literature, were used to model and analyze the specific loss power depending on the regime parameters of the system under consideration.

МАГНИТНЫЕ ЧАСТИЦЫ

МАГНИТНЫЙ МОМЕНТ

MASTER'S THESIS

MAGNETIC PARTICLES

MAGNETIC MOMENT

FOKKER-PLANCK-BROWN EQUATION

PROBABILITY DENSITY

DYNAMIC SUSCEPTIBILITY

SPECIFIC LOSS POWER

INTERPARTICLE DIPOLE-DIPOLE INTERACTIONS