High-resolution photoionization spectrum of water molecules in a supersonic beam

We have obtained high-resolution (∼1.5 cm−1) photoionization spectra of supersonically cooled (Trot∼50 K) H2O and D2O in the 1000–900 Å range. The light source, which used the technique of frequency tripling in a pulsed free jet of gas, is described briefly. Spectra are rotationally resolved. Vibrat...

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Veröffentlicht in:	J. Chem. Phys.; (United States) 1988-02, Vol.88 (4), p.2249-2263
Hauptverfasser:	PAGE, R. H, LARKIN, R. J, SHEN, Y. R, LEE, Y. T
Format:	Artikel
Sprache:	eng
Schlagworte:	640301 - Atomic, Molecular & Chemical Physics- Beams & their Reactions 640302 - Atomic, Molecular & Chemical Physics- Atomic & Molecular Properties & Theory ATOMIC AND MOLECULAR PHYSICS AUTOIONIZATION BEAMS CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS DISSOCIATION ENERGY LEVELS Exact sciences and technology EXCITED STATES FLUID FLOW HEAVY WATER HYDROGEN COMPOUNDS IONIZATION IONIZATION POTENTIAL LIFETIME MOLECULAR BEAMS Molecular properties and interactions with photons OXYGEN COMPOUNDS PHOTOIONIZATION Photon interactions with molecules Physics PREDISSOCIATION RYDBERG STATES SUPERSONIC FLOW WATER
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container_title	J. Chem. Phys.; (United States)
container_volume	88
creator	PAGE, R. H LARKIN, R. J SHEN, Y. R LEE, Y. T
description	We have obtained high-resolution (∼1.5 cm−1) photoionization spectra of supersonically cooled (Trot∼50 K) H2O and D2O in the 1000–900 Å range. The light source, which used the technique of frequency tripling in a pulsed free jet of gas, is described briefly. Spectra are rotationally resolved. Vibrationally excited autoionizing Rydberg series converging to the ground electronic [X̃; (1b1)−1] state of the molecular ion are detected. This may well be the first example of a highly resolved Rydberg spectrum of a stable polyatomic molecule. From the convergence limit, the ionization potential H2O is determined to be 101 777±7 cm−1. Intensities of the Rydberg state autoionization signals are smaller than predicted with known Franck–Condon factors, indicating that predissociation is a competitive decay channel. Rydberg state lifetimes are ∼1 ps, deduced from homogeneous linewidths. Autoionizing features from Rydberg states associated with the ion’s quasilinear Ã (3a1)−1 state are observed with linewidths above 10 cm−1, indicating that their lifetimes are less than ∼0.5 ps. Rotational assignments of some of the bands in this linear←bent transition show that the Rydberg and ionic state geometries are nearly identical. A consistent assignment of the controversial bending (v2) quantum number and Rydberg series quantum defect δ=−0.037 have been provided.
doi_str_mv	10.1063/1.454058
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H ; LARKIN, R. J ; SHEN, Y. R ; LEE, Y. T</creator><creatorcontrib>PAGE, R. H ; LARKIN, R. J ; SHEN, Y. R ; LEE, Y. T ; Materials and Chemical Sciences Division, Lawrence Berkeley Laboratory, Berkeley, California 94720</creatorcontrib><description>We have obtained high-resolution (∼1.5 cm−1) photoionization spectra of supersonically cooled (Trot∼50 K) H2O and D2O in the 1000–900 Å range. The light source, which used the technique of frequency tripling in a pulsed free jet of gas, is described briefly. Spectra are rotationally resolved. Vibrationally excited autoionizing Rydberg series converging to the ground electronic [X̃; (1b1)−1] state of the molecular ion are detected. This may well be the first example of a highly resolved Rydberg spectrum of a stable polyatomic molecule. From the convergence limit, the ionization potential H2O is determined to be 101 777±7 cm−1. Intensities of the Rydberg state autoionization signals are smaller than predicted with known Franck–Condon factors, indicating that predissociation is a competitive decay channel. Rydberg state lifetimes are ∼1 ps, deduced from homogeneous linewidths. Autoionizing features from Rydberg states associated with the ion’s quasilinear Ã (3a1)−1 state are observed with linewidths above 10 cm−1, indicating that their lifetimes are less than ∼0.5 ps. Rotational assignments of some of the bands in this linear←bent transition show that the Rydberg and ionic state geometries are nearly identical. A consistent assignment of the controversial bending (v2) quantum number and Rydberg series quantum defect δ=−0.037 have been provided.</description><identifier>ISSN: 0021-9606</identifier><identifier>EISSN: 1089-7690</identifier><identifier>DOI: 10.1063/1.454058</identifier><identifier>CODEN: JCPSA6</identifier><language>eng</language><publisher>Woodbury, NY: American Institute of Physics</publisher><subject>640301 - Atomic, Molecular & Chemical Physics- Beams & their Reactions ; 640302 - Atomic, Molecular & Chemical Physics- Atomic & Molecular Properties & Theory ; ATOMIC AND MOLECULAR PHYSICS ; AUTOIONIZATION ; BEAMS ; CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS ; DISSOCIATION ; ENERGY LEVELS ; Exact sciences and technology ; EXCITED STATES ; FLUID FLOW ; HEAVY WATER ; HYDROGEN COMPOUNDS ; IONIZATION ; IONIZATION POTENTIAL ; LIFETIME ; MOLECULAR BEAMS ; Molecular properties and interactions with photons ; OXYGEN COMPOUNDS ; PHOTOIONIZATION ; Photon interactions with molecules ; Physics ; PREDISSOCIATION ; RYDBERG STATES ; SUPERSONIC FLOW ; WATER</subject><ispartof>J. 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J</creatorcontrib><creatorcontrib>SHEN, Y. R</creatorcontrib><creatorcontrib>LEE, Y. T</creatorcontrib><creatorcontrib>Materials and Chemical Sciences Division, Lawrence Berkeley Laboratory, Berkeley, California 94720</creatorcontrib><title>High-resolution photoionization spectrum of water molecules in a supersonic beam</title><title>J. Chem. Phys.; (United States)</title><description>We have obtained high-resolution (∼1.5 cm−1) photoionization spectra of supersonically cooled (Trot∼50 K) H2O and D2O in the 1000–900 Å range. The light source, which used the technique of frequency tripling in a pulsed free jet of gas, is described briefly. Spectra are rotationally resolved. Vibrationally excited autoionizing Rydberg series converging to the ground electronic [X̃; (1b1)−1] state of the molecular ion are detected. This may well be the first example of a highly resolved Rydberg spectrum of a stable polyatomic molecule. From the convergence limit, the ionization potential H2O is determined to be 101 777±7 cm−1. Intensities of the Rydberg state autoionization signals are smaller than predicted with known Franck–Condon factors, indicating that predissociation is a competitive decay channel. Rydberg state lifetimes are ∼1 ps, deduced from homogeneous linewidths. Autoionizing features from Rydberg states associated with the ion’s quasilinear Ã (3a1)−1 state are observed with linewidths above 10 cm−1, indicating that their lifetimes are less than ∼0.5 ps. Rotational assignments of some of the bands in this linear←bent transition show that the Rydberg and ionic state geometries are nearly identical. A consistent assignment of the controversial bending (v2) quantum number and Rydberg series quantum defect δ=−0.037 have been provided.</description><subject>640301 - Atomic, Molecular & Chemical Physics- Beams & their Reactions</subject><subject>640302 - Atomic, Molecular & Chemical Physics- Atomic & Molecular Properties & Theory</subject><subject>ATOMIC AND MOLECULAR PHYSICS</subject><subject>AUTOIONIZATION</subject><subject>BEAMS</subject><subject>CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS</subject><subject>DISSOCIATION</subject><subject>ENERGY LEVELS</subject><subject>Exact sciences and technology</subject><subject>EXCITED STATES</subject><subject>FLUID FLOW</subject><subject>HEAVY WATER</subject><subject>HYDROGEN COMPOUNDS</subject><subject>IONIZATION</subject><subject>IONIZATION POTENTIAL</subject><subject>LIFETIME</subject><subject>MOLECULAR BEAMS</subject><subject>Molecular properties and interactions with photons</subject><subject>OXYGEN COMPOUNDS</subject><subject>PHOTOIONIZATION</subject><subject>Photon interactions with molecules</subject><subject>Physics</subject><subject>PREDISSOCIATION</subject><subject>RYDBERG STATES</subject><subject>SUPERSONIC FLOW</subject><subject>WATER</subject><issn>0021-9606</issn><issn>1089-7690</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>1988</creationdate><recordtype>article</recordtype><recordid>eNo9kE9LxDAQxYMouK6CHyGIBy9dJ03StEdZ_AcLeth7SaeJG2mbkqSIfnqrFQ_DzIPfPB6PkEsGGwYFv2UbIQXI8oisGJRVpooKjskKIGdZVUBxSs5ifAcApnKxIq9P7u2QBRN9NyXnBzoefPLz4b70r46jwRSmnnpLP3Qygfa-Mzh1JlI3UE3jNJoQ5wekjdH9OTmxuovm4m-vyf7hfr99ynYvj8_bu12GvOQpky0TpeLWlCgalKoS2lrGrMZ2HrA8N6gMazU3aIu8KbktZdXKAm2ldcPX5Gqx9TG5OqJLBg_oh2FOW0vFhJLVDN0sEAYfYzC2HoPrdfisGdQ_bdWsXtqa0esFHXVE3dmgB3Txn1eQ50IA_wZ-b2sX</recordid><startdate>19880215</startdate><enddate>19880215</enddate><creator>PAGE, R. H</creator><creator>LARKIN, R. J</creator><creator>SHEN, Y. R</creator><creator>LEE, Y. T</creator><general>American Institute of Physics</general><scope>IQODW</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>OTOTI</scope></search><sort><creationdate>19880215</creationdate><title>High-resolution photoionization spectrum of water molecules in a supersonic beam</title><author>PAGE, R. H ; LARKIN, R. J ; SHEN, Y. R ; LEE, Y. T</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c383t-5d14873fe8c4bc5794aff11facdfac0f32ec7e1da3ecf62b83f859d56cf9aab3</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>1988</creationdate><topic>640301 - Atomic, Molecular & Chemical Physics- Beams & their Reactions</topic><topic>640302 - Atomic, Molecular & Chemical Physics- Atomic & Molecular Properties & Theory</topic><topic>ATOMIC AND MOLECULAR PHYSICS</topic><topic>AUTOIONIZATION</topic><topic>BEAMS</topic><topic>CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS</topic><topic>DISSOCIATION</topic><topic>ENERGY LEVELS</topic><topic>Exact sciences and technology</topic><topic>EXCITED STATES</topic><topic>FLUID FLOW</topic><topic>HEAVY WATER</topic><topic>HYDROGEN COMPOUNDS</topic><topic>IONIZATION</topic><topic>IONIZATION POTENTIAL</topic><topic>LIFETIME</topic><topic>MOLECULAR BEAMS</topic><topic>Molecular properties and interactions with photons</topic><topic>OXYGEN COMPOUNDS</topic><topic>PHOTOIONIZATION</topic><topic>Photon interactions with molecules</topic><topic>Physics</topic><topic>PREDISSOCIATION</topic><topic>RYDBERG STATES</topic><topic>SUPERSONIC FLOW</topic><topic>WATER</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>PAGE, R. H</creatorcontrib><creatorcontrib>LARKIN, R. J</creatorcontrib><creatorcontrib>SHEN, Y. R</creatorcontrib><creatorcontrib>LEE, Y. T</creatorcontrib><creatorcontrib>Materials and Chemical Sciences Division, Lawrence Berkeley Laboratory, Berkeley, California 94720</creatorcontrib><collection>Pascal-Francis</collection><collection>CrossRef</collection><collection>OSTI.GOV</collection><jtitle>J. Chem. Phys.; (United States)</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>PAGE, R. H</au><au>LARKIN, R. J</au><au>SHEN, Y. R</au><au>LEE, Y. T</au><aucorp>Materials and Chemical Sciences Division, Lawrence Berkeley Laboratory, Berkeley, California 94720</aucorp><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>High-resolution photoionization spectrum of water molecules in a supersonic beam</atitle><jtitle>J. Chem. Phys.; (United States)</jtitle><date>1988-02-15</date><risdate>1988</risdate><volume>88</volume><issue>4</issue><spage>2249</spage><epage>2263</epage><pages>2249-2263</pages><issn>0021-9606</issn><eissn>1089-7690</eissn><coden>JCPSA6</coden><abstract>We have obtained high-resolution (∼1.5 cm−1) photoionization spectra of supersonically cooled (Trot∼50 K) H2O and D2O in the 1000–900 Å range. The light source, which used the technique of frequency tripling in a pulsed free jet of gas, is described briefly. Spectra are rotationally resolved. Vibrationally excited autoionizing Rydberg series converging to the ground electronic [X̃; (1b1)−1] state of the molecular ion are detected. This may well be the first example of a highly resolved Rydberg spectrum of a stable polyatomic molecule. From the convergence limit, the ionization potential H2O is determined to be 101 777±7 cm−1. Intensities of the Rydberg state autoionization signals are smaller than predicted with known Franck–Condon factors, indicating that predissociation is a competitive decay channel. Rydberg state lifetimes are ∼1 ps, deduced from homogeneous linewidths. Autoionizing features from Rydberg states associated with the ion’s quasilinear Ã (3a1)−1 state are observed with linewidths above 10 cm−1, indicating that their lifetimes are less than ∼0.5 ps. Rotational assignments of some of the bands in this linear←bent transition show that the Rydberg and ionic state geometries are nearly identical. A consistent assignment of the controversial bending (v2) quantum number and Rydberg series quantum defect δ=−0.037 have been provided.</abstract><cop>Woodbury, NY</cop><pub>American Institute of Physics</pub><doi>10.1063/1.454058</doi><tpages>15</tpages><oa>free_for_read</oa></addata></record>
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subjects	640301 - Atomic, Molecular & Chemical Physics- Beams & their Reactions 640302 - Atomic, Molecular & Chemical Physics- Atomic & Molecular Properties & Theory ATOMIC AND MOLECULAR PHYSICS AUTOIONIZATION BEAMS CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS DISSOCIATION ENERGY LEVELS Exact sciences and technology EXCITED STATES FLUID FLOW HEAVY WATER HYDROGEN COMPOUNDS IONIZATION IONIZATION POTENTIAL LIFETIME MOLECULAR BEAMS Molecular properties and interactions with photons OXYGEN COMPOUNDS PHOTOIONIZATION Photon interactions with molecules Physics PREDISSOCIATION RYDBERG STATES SUPERSONIC FLOW WATER
title	High-resolution photoionization spectrum of water molecules in a supersonic beam
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