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1. Radiative Losses of Heavy Charged Particles on Multielectron Impurity Ions in Thermonuclear Plasma

   Abstract

   The statistical method is applied to calculate the new channel of radiative losses of alpha particles, deuterons, and tritons when exciting...

   A. V. Demura, D. S. Leontyev, V. S. Lisitsa in Physics of Atomic Nuclei

   Article 01 December 2023
   

2. Relaxation Dynamics of Free Carriers

   The generation of electron-hole pairs by optical absorption of photons from an excitation source like a pulsed or cw laser leads to a non-equilibrium...

   Heinz Kalt, Claus F. Klingshirn in Semiconductor Optics 2

   Chapter 2024
   

3. Radiative Losses of Deuterons, Tritons, and Alpha Particles on Tungsten Ions in the Plasma of the ITER and EU-DEMO Tokamaks

   Integral radiative losses of deuterons, tritons, and alpha particles on impurity tungsten ions have been calculated for the first time within the...

   A. A. Mavrin, A. V. Demura, ... V. S. Lisitsa in JETP Letters

   Article 01 December 2023
   

4. Anomalous Radiative Heating of a Metal Particle Moving Near a Metal Plate

   The rate of radiative heating (cooling) of a metal nanoparticle moving near the surface of a metal plate at low temperatures (1–10 K) of both bodies...

   G. V. Dedkov in JETP Letters

   Article 01 September 2022
   

5. Low-energy radiative backgrounds in CCD-based dark-matter detectors

   The reach of sub-GeV dark-matter detectors is at present severely affected by low-energy events from various origins. We present the theoretical...

   Peizhi Du, Daniel Egaña-Ugrinovic, ... Mukul Sholapurkar in Journal of High Energy Physics

   Article Open access 25 January 2024

6. The Radiative Gas Dynamics of Spacecraft in the Martian Atmosphere

   Abstract

   The problems of the radiative gas dynamics of the Martian space vehicles MSRO , Pathfinder , and Exomars-2016 are solved using the author’s...

   S. T. Surzhikov in Fluid Dynamics

   Article 01 December 2022
   

7. Radiative–Convective Heating of the Surface of the Martian Descent Vehicle MSL with Taking into Account the Turbulent Nature of Flow

   Abstract

   The three-dimensional computer model based on the Reynolds-averaged Navier–Stokes equations together with the Baldwin–Lomax and Prandtl...

   S. T. Surzhikov in Fluid Dynamics

   Article Open access 16 October 2023
   

8. The Radiative Gas Dynamics of Spherical Spacecraft in the Martian Atmosphere

   Abstract

   The problem of radiative-convective heat transfer of spacecraft of the simplest shape in Martian atmosphere is solved. Selection of spherical...

   S. T. Surzhikov in Fluid Dynamics

   Article 01 December 2022
   

9. Molecular data needs for advanced collisional-radiative modelling for hydrogen plasmas

   Population models for molecular hydrogen (H ₂ ) are applicable in various fields of plasma physics and particularly in fusion research: they are...

   R. C. Bergmayr, D. Wünderlich, U. Fantz in The European Physical Journal D

   Article Open access 14 July 2023
   

10. Radiative suppression of exciton–exciton annihilation in a two-dimensional semiconductor

    Two-dimensional (2D) semiconductors possess strongly bound excitons, opening novel opportunities for engineering light–matter interaction at the...

    Luca Sortino, Merve Gülmüs, ... Stefan A. Maier in Light: Science & Applications

    Article Open access 24 August 2023
    

11. The Radiative Gas Dynamics of the Stardust Spacecraft

    Abstract

    The calculation results of radiative-convective heating of the Stardust spacecraft obtained by the NERAT(2D)+ASTEROID computer code. The...

    S. T. Surzhikov in Fluid Dynamics

    Article 01 December 2022
    

12. Radiative Transfer (Atmospheres)

    Emmanuel Marcq in Encyclopedia of Astrobiology

    Reference work entry 2023
    

13. Radiative Gas Dynamics of the Orion Descent Space Capsule in the Earth’s Atmosphere

    Abstract

    In this paper, we present the results of a numerical study of the radiative gas dynamics of the large-scale Orion spacecraft for the...

    S. T. Surzhikov in Fluid Dynamics

    Article 01 December 2022
    

14. The Radiative Gas Dynamics of the Apollo-4 Command Module during Superorbital Earth Entry

    Abstract

    The problem of the radiative gas dynamics of superorbital entry of the Apollo-4 command module into the Earth’s dense atmosphere has been...

    S. T. Surzhikov in Fluid Dynamics

    Article 01 December 2022
    

15. Analysis of the Flight Data on Convective and Radiative Heating of the Surface of Martian Schiaparelli Descent Space Vehicle

    Abstract

    Radiative aerothermodynamics of the Schiaparelli descent space vehicle are investigated numerically at some characteristic trajectory points...

    S. T. Surzhikov, D. S. Yatsukhno in Fluid Dynamics

    Article 29 November 2022
    

16. A Two-Dimensional Radiative Gasdynamic Model of the Aerophysics of Descent Space Capsules

    Abstract

    A computational-theoretical method for the study of radiative gas dynamics and aerophysics of descent space capsules (SCs) designed to enter...

    S. T. Surzhikov in Fluid Dynamics

    Article 01 December 2022
    

17. Problems of Radiative Gas Dynamics in the Fire-II Space Experiment

    Abstract

    The results of a systematic numerical analysis of the experimental data of the Fire-II flight experiment and a consideration of the results...

    S. T. Surzhikov in Fluid Dynamics

    Article 01 December 2022
    

18. The Radiative Gas Dynamics of a Descent Space Capsule under Conditions of Orbital and Superorbital Entry into the Earth’s Atmosphere

    Abstract —

    The radiative aerothermodynamics of a large-scale segmental-conical spacecraft (SCSC) entering the dense layers of the Earth’s atmosphere at...

    S. T. Surzhikov in Fluid Dynamics

    Article 01 December 2022
    

19. Comparison of Calculation Data on the Radiative and Convective Heating of Space Capsules Obtained with Correlation and Computer Models

    Abstract

    The results of testing correlation dependences that are intended to compute the convective and radiative heating of space capsules based on...

    S. T. Surzhikov in Fluid Dynamics

    Article 01 December 2022
    

20. The Role of the Spectral Lines of Atoms and Ions in Radiative Heating of the Surfaces of Space Capsules

    Abstract

    This paper presents the results of two-dimensional calculations of the radiative heating of the Fire-II , Stardust , and Orion space capsules...

    S. T. Surzhikov in Fluid Dynamics

    Article 01 December 2022