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GPU porting of a Boltzmann code. Description of the strategy for the implementation.
We propose to offload to GPUs some of the most expensive routines in the Boltzmann code CLASS. The motivation is the high computational expense associated to the production of large training datasets for cosmological Cosmic Microwave Background (CMB) angular power spectrum emulators, especially in the context of non-standard (beyond-ΛCDM) cosmological models
iPSC Gene Editing
Creative Bioarray is an experienced and outstanding provider of iPSCs Gene Editing service. We are dedicated to providing quality data and comprehensive service for your scientific research, and we are pleased to use our extensive experience and advanced platform to offer the best service to satisfy each demand from our customers
Algorithm for creation of digital twin from UAV
The report specifically focuses on the creation of digital twins using UAV (Unmanned Aerial Vehicle) photogrammetry techniques. It offers functionalities for processing aerial imagery, generating 3D models, and creating digital representations of real-world environment
Cosmic Radiation Effects in LiteBIRD
LiteBIRD, a dedicated space-born experiment set to launch in the 2030s, aims to detect large-scale B-mode anisotropy of the linear polarization of the cosmic microwave background (CMB) as predicted by inflation theory. Operating from the second Lagrangean point of the Sun-Earth system, LiteBIRD will survey the sky across 15 frequency bands. However, the mission faces challenges associated with cosmic ray radiation, which can potentially degrade scientific data. Of particular concern is the energy loading onto the focal plane, a significant source of systematics. This study aims to provide an initial estimation for this effect on the High Frequency (HFT) telescope. It employs Geant4 simulations to assess the impact of cosmic rays, including Galactic Cosmic Rays and eruptive solar energetic particles, considering the space radiation environment at L2. These insights contribute to the ongoing refinement of LiteBIRD's instrumentation for robust and accurate measurements in the cosmic microwave background
Algorithm for creation of digital twin from UAV
The report presents the final script release for the creation of digital twins utilising UAV (Unmanned Aerial Vehicle) photogrammetry techniques. It provides functionalities for processing aerial imagery, generating 3D models, and creating digital representations of real-world environments. This release strategically divides the fundamental process into individual tasks, facilitating more efficient project management and control
Python Monte Carlo Simulation Read Tool
pyMCSRT contains reading modules: one for reading the MCNP mesh tally out format, the other one for reading the PHITS output tally format
Fermentation for Microbial Biomass
Creative Biogene has accumulated extensive and further experience in manufacturing microbial biomass and offers dedicated services for in-house or partnered microbial fermentation of live microorganisms
mRNA Synthesis
Synthetic mRNA has recently come into focus as a potential new drug class to deliver genetic information. Such synthetic mRNA can be engineered to transiently express proteins more rapidly and safety, due to no need of transnuclear localization and lack of integration into host cell genome. In addition, the development of in vitro transcription (IVT) technique renders the easy modulation of mRNA's biochemical properties. Throughout the IVT process, various modified nucleotides, for example 5-methylcytidine, 5-methoxyuridine and pseudouridine can be simply incorporated into the synthetic mRNA. Depending on the properties of chemically-modified nucleotides, the immunogenicity or stability of the resulting mRNA can be improved. Therefore, the synthetic mRNA has become much popular among a broad range of potential applications, such as regenerative medicine, basic cell biology, treatment of diseases, and reprogramming of cells
Cell Immortalization kit
Immortalizing the cell line will eliminate the frequent need to re-establish fresh cultures from specimens. Immortalized cell lines are capable of extended proliferation and should possess similar or identical genotype and phenotype to the parental tissue
Analytical methods in Celestial Mechanics: satellites' stability and galactic billiards
In this paper, two models of interest for Celestial Mechanics are presented and
analysed, using both analytic and numerical techniques, from the point of view
of the possible presence of regular and/or chaotic motion, as well as the stability
of the considered orbits.
The first model, presented in a Hamiltonian formalism, can be used to describe
the motion of a satellite around the Earth, taking into account both the nonspherical
shape of our planet and the third-body gravitational influence of Sun
and Moon. Using semi-analytical techniques coming from Normal Form and
Nekhoroshev theories it is possible to provide stability estimates for the orbital
elements of its geocentric motion.
The second dynamical system presented can be used as a simplified model to
describe the motion of a particle in an elliptic galaxy having a central massive
core, and is constructed as a refraction billiard where an inner dynamics, induced
by a Keplerian potential, is coupled with an external one, where a harmonic
oscillator-type potential is considered. The investigation of the dynamics is carried
on by using tools of ODEs’ theory and is focused on studying the trajectories’
properties in terms of periodicity, stability and, possibly, chaoticity