abbr. SJ GMU
ISSN 2657-5841 (printed)
ISSN 2657-6988 (online)
DOI: 10.26408
Aparatura do zderzeń wiązek jonowych z gazowymi tarczami
Apparatus for ion beam collisions with target gas
Abstract:
At present, they continued research related to the stellar wind interaction with gases belonging to the ISM (interstellar medium). These studies, together with the already published results contribute to a better understanding of the fundamental processes in planetary atmospheres and space. The obtained optical spectra will enable a deeper analysis of the data collected by the telescopes Hubble, FUSE, UVES. This paper describes an apparatus designed for study of collisional processes involving the so-called hot atoms (occurring in space and could have a significant role in interactions with coatings materials found there technical objects). Selected results are presented. In particular, it focuses on the interaction of the stellar wind with particles forming the planetary atmospheres and interstellar medium.
Streszczenie:
W artykule opisano aparaturę przeznaczoną do badań zderzeniowych procesów z udziałem tzw. gorących atomów (występujących w przestrzeni kosmicznej i mogących w istotnej skali oddziaływać z materiałami powłok znajdujących się tam obiektów technicznych). Przedstawiono wybrane wyniki badań. W szczególności skupiono się na oddziaływaniu wiatru gwiazdowego z drobinami, wchodzącymi w skład atmosfer planetarnych oraz gęstych obłoków materii międzygwiazdowej.
Słowa kluczowe:
kosmochemia
drobiny
widma optyczne
Issue:
Pages:
142
148
Download full text in pdf:
References:
Ehbrecht A., Kowalski A., Ottinger Ch., Hot-atom chemiluminescence: a beam study of the reactions C(3P)+H2›CH(A 2?, B 2?-, C 2?+)+H, Chemical Physics Letters, 1998, 284.
Kowalski A., Pranszke B., Ottinger Ch., Hot-atom chemiluminescence: a beam study of the N*(2D) + CH4 system, Chemical Physics Letters, 2004, 383, s. 156–160.
Pranszke B., Charge transfer excitation in N+ + CO2 collisions under beam conditions, Chemical Physics Letters, 2009, 484, s. 24–27.
Pranszke B., Charge transfer excitation in H2 + + CO2 collisions under beam conditions, Chemical Physics Letters, 2010, 499, s. 199–202.
Pranszke B., Charge-transfer excitation in collisions of slow H+ and H3+ ions with CO2 molecules under beam conditions, Chemical Physics Letters, 2011, 508, s. 197–201.
Pranszke B., Charge transfer excitation in He+ + CO2 collisions under beam conditions, Chemical Physics Letters, 2012, 536, s. 26–29.
Pranszke B., Werbowy S., Ławicki A., Luminescence in collisions of slow H+, H2+, and H3+ ions with O2 molecule, Physical Review A, 2011, 83(3), 032707.
Wasowicz J.T., Pranszke B., Fragmentation of Tetrahydrofuran Molecules by H+, C+, and O+ Collisions at the Incident Energy Range of 25–1000 eV, The Journal of Physical Chemistry A, 2015, Vol. 119, No. 4, s. 581–589.
Werbowy S., Pranszke B., Electronic excitation and charge transfer processes in collisions of H+, H2+, and H3+ ions with carbon monoxide at typical solar wind velocities, The Astrophysical Journal, 2014, Vol. 780, No. 157, s. 1–10.
Werbowy S., Pranszke B., Laboratory spectroscopic studies of collisions between slow stellar wind components (H+, H2+, H3+ ions) and molecular nitrogen, Astronomy & Astrophysics, 2011, Vol. 535, No. A51, s. 1–8.