Ultra High Resolution Spectroscopy of Solid Parahydrogen.

固体仲氢的超高分辨率光谱。

• 批准号: 09044077
• 负责人: MOMOSE Takamasa
• 金额: $ 3.46万
• 依托单位: KYOTO UNIVERSITY
• 依托单位国家: 日本
• 项目类别: Grant-in-Aid for international Scientific Research
• 财政年份: 1996
• 资助国家: 日本
• 起止时间: 1996 至 1998
• 项目状态: 已结题
• 来源: https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-09044077/
• 关键词: Solid Hydrogen; quantum crystal; Laser Spectroscopy; Infrared; high-resolution; exciton; molecular ion; crystal field; ラマン分光

Solid parahydrogen is a promising medium for high resolution spectroscopy. The rotationaland vibrational excited states of hydrogen molecules and molecules embedded in the solid are well quantized on account of the weak intermolecular interaction. Moreover, due to the energy mismatch between the internal motion and the crystal phonon, the lifetime of the excited states becomes enormously long so that the spectral linewidth becomes as narrow as lMHz. The purpose of the present research is to develop a new technique of ultra-high-resolution spectroscopy of condensed phase using solid parahydrogen as a medium in order to clarify rovibarional motion of molecules as well as intermolecular many-body interactions in condensed phase in great detail. We obtained the following new results during the period of the research project. (1) High-resolution infrared spectroscopy of pure vibrational transitions of parahydrogen molecules and impurity ortho-hydrogen pairs in parahydrogen crystals was performed to obtain information on exciton hopping and intermolecular interaction quantitatively. (2) We found that molecules doped in parahydrogen crystal also show quantized rotation-vibration states. The well-resolved infrared spectrum allows us to develop new theory for the analysisoi of rovibrational motion of molecules in condensed phase. (3) Several pure tunneling chemical reactions were observed for the first time by infrared spectroscopy. (4) We have developed a technique to produce molecular ions in the solid which allows us to study hydrogenic ions of chemical interests under high-resolution.

固体仲氢是高分辨率光谱学的有前途的介质。由于分子间相互作用较弱，氢分子和嵌入固体中的分子的旋转和振动激发态可以很好地量子化。此外，由于内部运动和晶体声子之间的能量不匹配，激发态的寿命变得非常长，使得谱线宽度变得窄至1MHz。本研究的目的是开发一种以固体仲氢为介质的超高分辨率凝聚相光谱新技术，以详细阐明凝聚相中分子的旋转运动以及分子间多体相互作用。 。在研究项目期间，我们获得了以下新成果。 (1)对仲氢分子和仲氢晶体中杂质邻氢对的纯振动跃迁进行高分辨率红外光谱分析，定量获得激子跳跃和分子间相互作用的信息。 (2)我们发现仲氢晶体中掺杂的分子也表现出量子化的旋转振动态。高分辨率的红外光谱使我们能够开发分析凝聚相分子振动运动的新理论。 (3)首次用红外光谱观察到了几种纯隧道化学反应。 (4) 我们开发了一种在固体中产生分子离子的技术，使我们能够在高分辨率下研究具有化学意义的氢离子。

项目成果

M.Fushitani et al.: "Photoindued reactions on methyl radical in solid parahydrogen." Journal of Chemical Physics. 109 (15). 6346-6350 (1998)

M.Fushitani 等人：“固体仲氢中甲基自由基的光致反应。”

Y.Zhang et al.: "High-resolution infrared spectroscopy of the J=1 H_2 pair in parahydrogen crystals" Physical Review B. 58・1. 218-232 (1998)

Y.Zhang等：“仲氢晶体中J=1H_2对的高分辨率红外光谱”物理评论B.58・1（1998）。

R.M.Dickson et al.: "High Resolution Spectroscopy of the Impurity Induced Q3(0) Transition of Solid Parahydrogen" Physical Review. B57・2. 941-949 (1998)

R.M.Dickson 等人：“固体仲氢的杂质诱导 Q3(0) 转变的高分辨率光谱”物理评论 B57·2 (1998)。

T.Momose et al.: "Tnneling chemical recations in solid parahydrogen : A case of CD3+H2 CD3H+H at 5K." Jounal of Chemical Physics. 108 (17). 7334-7338 (1998)

T.Momose 等人：“固体仲氢中的隧道化学反应：5K 下 CD3 H2 CD3H H 的案例。”

T.Momose: "Impurity Molecules in Parahydrogen Crystal" Journal of Low Temperature Physics. 111・3(印刷中). (1998)

T.Momose：“仲氢晶体中的杂质分子”《低温物理学杂志》111・3（出版中）。