The ethynyl radical (systematically named λ³-ethyne and hydridodicarbon(''C''—''C'')) is an

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with the

chemical formula In chemistry, a chemical formula is a way of presenting information about the chemical proportions of atoms that constitute a particular chemical compound or molecule, using chemical element symbols, numbers, and sometimes also other symbol ...

C≡CH (also written CHor ). It is a simple molecule that does not occur naturally on Earth but is abundant in the interstellar medium. It was first observed by

electron spin resonance Electron paramagnetic resonance (EPR) or electron spin resonance (ESR) spectroscopy is a method for studying materials that have unpaired electrons. The basic concepts of EPR are analogous to those of nuclear magnetic resonance (NMR), but the sp ...

isolated in a solid argon matrix at liquid helium temperatures in 1963 by Cochran and coworkers at the

Johns Hopkins Applied Physics Laboratory The Johns Hopkins University Applied Physics Laboratory (Applied Physics Laboratory, or APL) is a not-for-profit university-affiliated research center (UARC) in Howard County, Maryland. It is affiliated with Johns Hopkins University and emplo ...

. It was first observed in the gas phase by Tucker and coworkers in November 1973 toward the Orion Nebula, using the

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11-meter radio telescope. It has since been detected in a large variety of interstellar environments, including dense

molecular cloud A molecular cloud, sometimes called a stellar nursery (if star formation is occurring within), is a type of interstellar cloud, the density and size of which permit absorption nebulae, the formation of molecules (most commonly molecular hydroge ...

bok globule In astronomy, Bok globules are isolated and relatively small dark nebulae, containing dense cosmic dust and gas from which star formation may take place. Bok globules are found within H II regions, and typically have a mass of about 2 to 50 solar ...

s, star forming regions, the shells around carbon-rich evolved stars, and even in other galaxies.

Astronomical Importance

Observations of C₂H can yield a large number of insights into the chemical and physical conditions where it is located. First, the relative abundance of ethynyl is an indication of the carbon-richness of its environment (as opposed to oxygen, which provides an important destruction mechanism). Since there are typically insufficient quantities of C₂H along a line of sight to make emission or absorption lines optically thick, derived column densities can be relatively accurate (as opposed to more common molecules like CO, NO, and OH). Observations of multiple rotational transitions of C₂H can result in estimates of the local density and temperature. Observations of the deuterated molecule, C₂D, can test and extend

fractionation Fractionation is a separation process in which a certain quantity of a mixture (of gases, solids, liquids, enzymes, or isotopes, or a suspension) is divided during a phase transition, into a number of smaller quantities (fractions) in which the ...

theories (which explain the enhanced abundance of deuterated molecules in the interstellar medium). One of the important indirect uses for observations of the ethynyl radical is the determination of acetylene abundances. Acetylene (C₂H₂) does not have a dipole moment, and therefore pure rotational transitions (typically occurring in the microwave region of the spectrum) are too weak to be observable. Since acetylene provides a dominant formation pathway to ethynyl, observations of the product can yield estimates of the unobservable acetylene. Observations of C₂H in star-forming regions frequently exhibit shell structures, which implies that it is quickly converted to more complex molecules in the densest regions of a molecular cloud. C₂H can therefore be used to study the initial conditions at the onset of massive star formation in dense cores. Finally, high-spectral-resolution observations of

Zeeman splitting The Zeeman effect (; ) is the effect of splitting of a spectral line into several components in the presence of a static magnetic field. It is named after the Dutch physicist Pieter Zeeman, who discovered it in 1896 and received a Nobel prize ...

in C₂H can give information about the magnetic fields in dense clouds, which can augment similar observations that are more commonly done in the simpler

cyanide Cyanide is a naturally occurring, rapidly acting, toxic chemical that can exist in many different forms. In chemistry, a cyanide () is a chemical compound that contains a functional group. This group, known as the cyano group, consists of ...

(CN).

Formation and destruction

The formation and destruction mechanisms of the ethynyl radical vary widely with its environment. The mechanisms listed below represent the current () understanding, but other formation and destruction pathways may be possible, or even dominant, in certain situations.

Formation

In the laboratory, C₂H can be made via photolysis of acetylene (C₂H₂) or C₂HCF₃, or in a

glow discharge A glow discharge is a plasma formed by the passage of electric current through a gas. It is often created by applying a voltage between two electrodes in a glass tube containing a low-pressure gas. When the voltage exceeds a value called the st ...

of a mixture of acetylene and helium. In the envelopes of carbon-rich evolved stars, acetylene is created in the thermal equilibrium in the stellar photosphere. Ethynyl is created as a photodissociation product of the acetylene that is ejected (via strong stellar winds) into the outer

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of these stars. In the cold, dense cores of molecular clouds (prior to star formation) where ''n'' > 10⁴ cm⁻³ and ''T'' < 20 K, ethynyl is dominantly formed via an electron recombination with the vinyl radical (). The neutral-neutral reaction of propynylidyne (C₃H) and atomic oxygen also produces ethynyl (and

carbon monoxide Carbon monoxide (chemical formula CO) is a colorless, poisonous, odorless, tasteless, flammable gas that is slightly less dense than air. Carbon monoxide consists of one carbon atom and one oxygen atom connected by a triple bond. It is the simple ...

, CO), though this is typically not a dominant formation mechanism. The dominant creation reactions are listed below. * + e⁻ → C₂H + H + H * + e⁻ → C₂H + H₂ *CH₃CCH⁺ + e⁻ → C₂H + CH₃ *C₃H + O → C₂H + CO

Destruction

The destruction of ethynyl is dominantly through neutral-neutral reactions with O₂ (producing carbon monoxide and formyl, HCO), or with atomic nitrogen (producing atomic hydrogen and C₂N). Ion-neutral reactions can also play a role in the destruction of ethynyl, through reactions with HCO⁺ and . The dominant destruction reactions are listed below. *C₂H + O₂ → HCO + CO *C₂H + N → C₂N + H *C₂H + HCO⁺ → + CO *C₂H + → + H₂

Method of observation

The ethynyl radical is observed in the microwave portion of the spectrum via pure rotational transitions. In its ground electronic and vibrational state, the nuclei are

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, and the molecule has a permanent dipole moment estimated to be ''μ'' = 0.8 D = . The ground vibrational and electronic (vibronic) state exhibits a simple

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-type rotational spectrum. However, each rotational state exhibits fine and hyperfine structure, due to the spin-orbit and electron-nucleus interactions, respectively. The ground rotational state is split into two hyperfine states, and the higher rotational states are each split into four hyperfine states. Selection rules prohibit all but six transitions between the ground and the first excited rotational state. Four of the six components were observed by Tucker ''et al.'' in 1974, the initial astronomical detection of ethynyl, and 4 years later, all six components were observed, which provided the final piece of evidence confirming the initial identification of the previously unassigned lines. Transitions between two adjacent higher-lying rotational states have 11 hyperfine components. The molecular constants of the ground vibronic state are tabulated below.

Isotopologues

Three

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s of the ¹²C¹²CH molecule have been observed in the interstellar medium. The change in molecular mass is associated with a shift in the energy levels and therefore the transition frequencies associated with the molecule. The molecular constants of the ground vibronic state, and the approximate transition frequency for the lowest 5 rotational transitions are given for each of the isotopologues in the table below. :

References

{{Hydrides by group Alkynyl groups Free radicals