Proposal for a Solid State Radio-Frequency Maser
スポンサーリンク
概要
- 論文の詳細を見る
- 社団法人日本物理学会の論文
- 1957-09-05
著者
-
ITOH Junkichi
Department of Physics, Osaka University
-
Itoh Junkichi
Department Of Physics Osaka University
-
Itoh Junkichi
Department Of Material Science Faculty Of Engineering Science Osaka University:faculty Of Science Ko
関連論文
- Nuclear Magnetic Resonance of Cu in Cu-Pd Alloy
- Nuclear Magnetic Resonance of Cu-Ni Alloys
- Nuclear Magnetic Resonance in Antiferromagnetic α-Mn Metal
- Nuclear Magnetic Resonance Experiment on Solid Hexamethyldisilane
- Proposal for a Solid State Radio-Frequency Maser
- The Hyperfine Fields of Gd in Tb-Gd, Dy-Gd, Er-Gd and Tm-Gd Alloys Obtained by NMR Measurements
- Nuclear Magnetic Resonance Study of NaCl Crystal Containing Ca Impurities
- Paramagnetic Resonance Spectrum of Mn^ in NaCl Single Crystal
- Nuclear Spin-Lattice Relaxation in Nb Metal
- On the Proton Chemical Shift in Deuterium Substituted p-Xylene and Toluene
- Nuclear Magnetic Resonance of Cl^ in a Single Crystal of NaClO_3
- Double Proton Magnetic Resonance by a Side Band Method
- Nuclear Magnetic Double Resonance Experiment on Two Proton System
- Nuclear Magnetic Resonance Studies of Iodine Ions in Aqueous Solution
- Nuclear Magnetic Resonance Studies of Ammonium Halides. : I. Proton Magnetic Resonance in Single Crystals of Ammonium Chloride and Ammonium Bromide.
- Nuclear Quadrupole Interaction in Sodium Chlorate and Sodium Bromate
- The Electric Quadrupole Splitting of the Nuclear Magnetic Resonance Lines of Sodium in a Single Crystal of Na_2S_2O_3・5H_2O
- Nuclear Magnetic Resonance Experiments of I^ in KI
- Nuclear Magnetic Resonance Experiments on Ammonium Halides, : II Halogen Nuclear Magnetic Resonance
- Nuclear Magnetic Resonance of RbBr
- Overhauser Effect and Spin-Lattice Relaxation Time of Proton in Sodium-Ammonia Solution
- Nuclear Magnetic Resonance Experiment on the Single Crystals of K2HgCl4$\cdot$H2O and K2SnCl4$\cdot$H2O. Part I
- Nuclear Magnetic Resonance Experiment on the Single Crystals of K2HgCl4$\cdot$H2O and K2SnCl4$\cdot$H2O