Aeronomy, a 20Th Century Emergent Science: the Role of Solar Lyman Series G

Aeronomy, a 20Th Century Emergent Science: the Role of Solar Lyman Series G

Aeronomy, a 20th Century emergent science: the role of solar Lyman series G. Kockarts To cite this version: G. Kockarts. Aeronomy, a 20th Century emergent science: the role of solar Lyman series. Annales Geophysicae, European Geosciences Union, 2002, 20 (5), pp.585-598. hal-00316992 HAL Id: hal-00316992 https://hal.archives-ouvertes.fr/hal-00316992 Submitted on 1 Jan 2002 HAL is a multi-disciplinary open access L’archive ouverte pluridisciplinaire HAL, est archive for the deposit and dissemination of sci- destinée au dépôt et à la diffusion de documents entific research documents, whether they are pub- scientifiques de niveau recherche, publiés ou non, lished or not. The documents may come from émanant des établissements d’enseignement et de teaching and research institutions in France or recherche français ou étrangers, des laboratoires abroad, or from public or private research centers. publics ou privés. c Annales Geophysicae (2002) 20: 585–598 European Geophysical Society 2002 Annales Geophysicae Aeronomy, a 20th Century emergent science: the role of solar Lyman series G. Kockarts Institut d’Aeronomie´ spatiale de Belgique, 3 avenue Circulaire, B-1180 Brussels, Belgium Received: 31 October 2001 – Revised: 23 January 2002 – Accepted: 29 January 2002 Abstract. Aeronomy is, by definition, a multidisciplinary dealing with atmospheric regions where photodissociation science which can be used to study the terrestrial atmosphere, and ionization processes play a role. as well as any planetary atmosphere and even the interplan- It was officially introduced during the 1954 General As- etary space. It was officially recognized in 1954 by the In- sembly of the International Union of Geodesy and Geo- ternational Union of Geodesy and Geophysics. The major physics (IUGG) in Rome. During this assembly the Interna- objective of the present paper is to show how aeronomy de- tional Association of Magnetism and Electricity changed its veloped since its infancy. The subject is so large that a guide- name to become the International Association of Geomag- line has been chosen to see how aeronomy affects our atmo- netism and Aeronomy. This official recognition of the term spheric knowledge. This guideline is the solar Lyman alpha does not imply that no researchers were involved in aeron- radiation which has different effects in the solar system. Af- omy before that time. There have always been precursors in ter a short description of the origins of aeronomy the first ob- any science before the adoption of a specific name. During servations of this line are summarized since the beginning of the ancient times, a human being observing the sky and try- the space age. Then the consequences of these observations ing to understand what he or she noticed was perhaps doing are analyzed for the physics and chemistry of the neutral ter- astronomy, meteorology or even aeronomy without knowing restrial atmosphere. New chemical processes had to be in- that she or he was a pioneer in one of these sciences now troduced, as well as new transport phenomena. Solar Lyman recognized by the scientific community. alpha also influences the structure of the Earth’s ionosphere, At the beginning of the 20th Century, several authors made particularly the D-region. In the terrestrial exosphere, solar computations for the atmospheric composition (Hann, 1903; Lyman alpha scattered resonantly by atomic hydrogen is at Humphreys, 1910; Wegener, 1911; Chapman and Milne, present the only way to estimate this constituent in an almost 1920; Jeans, 1925), including nitrogen, oxygen, argon, car- collisionless medium. Since planetary atmospheres also con- bon dioxide, hydrogen, neon and helium. As noted by Jeans tain atomic hydrogen, the Lyman alpha line has been used to (1925), all these calculations assume that the terrestrial at- deduce the abundance of this constituent. The same is true mosphere is composed of two layers, one with an adiabatic for the interplanetary space where Lyman alpha observations regime up to approximately 11 km at mid-latitude and one can be a good tool to determine the concentration. The last with a constant temperature above that height. This was section of the paper presents a question which is intended to a consequence of observations available at that time. We- stimulate further research in aeronomy. gener (1911) even introduced a hypothetical monoatomic Key words. Atmospheric composition and structure (mid- constituent, called geo-coronium with a mass of 0.4 amu, in dle atmosphere – composition and chemistry; thermosphere order to explain an unknown line in the auroral spectrum. – composition and chemistry) – history of geophysics (atmo- This hypothesis was refuted by Chapman and Milne (1920), spheric sciences) since the existence of such super light constituent would im- ply an escape flux so high that the constituent should disap- pear from the atmosphere. A historical, vertical distribution of the atmospheric composition is given in a table by Chap- 1 Origins man and Milne (1920). Figure 1 shows a graphical representation of these compu- The word “Aeronomy” has been coined by the great geo- tations. It is clearly seen that the atmosphere is divided in two physicist Sidney Chapman. It can be defined as the science regions. Up to 20 km constituents are in perfect mixing and Correspondence to: G. Kockarts ([email protected]) above that height molecular diffusion leads to a separation 586 G. Kockarts: Aeronomy, a 20th Century emergent science 200 14 Ionization limit of atomic hydrogen (13.595 ev) 54 12 3 180 10 2 H α H β H γ H δ 8 656.3 nm486.1 nm434.0 nm410.2 nm 160 6 94.97 nm Balmer series 97.25 nm 121.57 nm Energy (eV) 4 102.57 nm γ δ β Lyman series 140 He 2 α N Ly Ly Ly 2 0 1 Ly 120 Fig. 2. Energy level diagram for atomic hydrogen. He 100 80 Although the reference list at the end of the present pa- Altitude (km) per is far from being exhaustive, I should mention that sev- 60 O eral books contain the word aeronomy in their title, namely 2 N2 Whitten and Poppoff (1971), Banks and Kockarts (1973a), Banks and Kockarts (1973b), Brasseur and Solomon (1986), 40 Tohmatsu (1990), and two books in French, Lilensten and Ar beginning altitude for diffusion Blelly (1999) and Kockarts (2000). There are many books 20 dealing with aeronomy without mentioning this word in their title. Among those, three excellent books (Chamberlain and 0 Hunten, 1987; Rees, 1989; Schunk and Nagy, 2000) will pro- 0 20 40 60 80 100 vide their readers with fundamental information. This does Volume mixing ratio (%) not imply that all other books are useless. Fig. 1. Vertical distribution of volume mixing ratios computed by Chapman and Milne (1920). 2 What is the Lyman series? of the atmospheric constituents according to their molecu- At the beginning of the 20th Century, the development of lar mass. Although the altitude where diffusion begins is quantum mechanics led quickly to the concept of energy lev- not correct, this figure demonstrates the concept of the dif- els in atomic spectra. Atomic hydrogen, the most simple ele- ferent dynamical regimes between two regions now called ment of the periodic table, could be treated analytically since the homosphere (perfect mixing) and the heterosphere (dif- this atom is composed of a single electron and a single pro- fusive equilibrium). This example shows that Chapman and ton. However, laboratory spectroscopy could not be done for Milne (1920) already did excellent aeronomical work before wavelengths shorter than 125 nm since they are absorbed by the name “Aeronomy” was coined by Sidney Chapman. fluorite CaF2. Lyman (1914), nevertheless, used a concave In the present paper, I take the solar Lyman series as a diffraction grating and discovered two lines, respectively, at guideline to show the multidisciplinary aspects of aeronomy, 121.6 nm and 102.6 nm of a spectral series now called the since a complete overview of this science would require sev- Lyman-series. Figure 2 shows a Grotrian energy level dia- eral books. A reminder of the Lyman series is given in Sect. 2 gram of the Lyman series. Wavelengths are taken from Wiese and the first observations, as well as recent refinements, are et al. (1966). It should be noted that a typographical error described in Sect. 3. Then some implications for the neutral occurs in their Table A for the wavelength Lyman-γ , where atmosphere are discussed in Sect. 4, and Sect. 5 indicates that 79.2537 nm should be read as 97.2537 nm. The Lyman series the Lyman series also plays a significant role in the ionized is entirely in the far ultraviolet part of the solar spectrum and part of our atmosphere. Knowledge of the outermost part this radiation cannot reach the ground level as a consequence of the atmosphere, i.e. the exosphere benefits from observa- of atmospheric absorption. However, the solar Lyman-β line tions of the Lyman series, is shown in Sect. 6. Aeronomy is can be absorbed by terrestrial hydrogen and through fluores- not limited to the terrestrial atmosphere, and it can lead to cence and scattering can lead to emission of the H α line, information for other planets and for the whole solar system. which is the first line of the Balmer series also shown on Aeronomy is still a science where important progress is on- Fig. 2. This line at 656.3 nm is visible and can be observed going. Therefore, a short sketch of its future is given in the from ground level. Herzberg (1927) made a detailed exper- last section. Younger scientists should not believe that every- imental study of the whole Balmer series and photographic thing has been done. There is plenty of work for the future plates XIII to XV can be seen at the end of volume 84 of and I am convinced that with imagination and skill, many Annalen der Physik.

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