約 3,795,847 件
https://w.atwiki.jp/fmatui/pages/195.html
International Conferences H. Matsuda, L. Tóth, K. Goto, F. Matsui, T. Matsushita, M. Hashimoto, C. Sakai, H. Nojiri, H. Daimon “Wide acceptance angle photoelectron spectrometer for stereophotograph of atomic arrangement” 3’S 11 (Lleida, Spain 2011.03.11) F. Matsui, H. Matsui, T. Matsushita, K. Goto, N. Maejima, N. Nishikayama, K. Tanaka, H. Daimon “Local atomic and electronic structure of graphene studied by photoelectron diffraction spectroscopy” SSNS’11 (Shizukuishi, Japan 2011.01.19) 【BEST POSTER賞受賞】 K. Goto, F. Matsui, T. Matsumoto, M. Hashimoto, N. Nishikayama, H. Matsui, N. Maejima, T. Matsushita, Y. Kato, H. Daimon, “Orbital angular momentum analysis of 1T-TaS2 valence band electron by circularly polarized light photoelectron diffraction” NSS6 (Kobe, Japan 2010.10.26) H. Matsui, F. Matsui, T. Matsushita, M. Hashimoto, K. Goto, N. Maejima, H. Daimon “Photoelectron diffraction and holography of graphite and graphene”NSS6 (Kobe, Japan 2010.10.26) N. Maejima, F. Matsui, K. Goto, N. Nishikayama, H. Matsui, M. Hashimoto, T. Matsushita, Y. Kato, S. Tanaka, H. Daimon “Atomic structure analysis of silicon oxynitride thin film on 6H-SiC(0001) by two-dimensional photoelectron diffraction” NSS6 (Kobe, Japan 2010.10.26) T. Matsushita, I. Pis, M. Kobata, K. Kobayashi, H. Matsuda, F. Matsui, H. Daimon, A. Uesaka, K. Hayashi “High-energy photoelectron holography” NSS6 (Kobe, Japan 2010.10.26) T. Matsushita, K. Goto, H. Matsuda, M. Hashimoto, L. Tóth, H. Nojiri, C. Sakai, F. Matsui, H. Daimon “Development of an electron microscope using wide acceptance angle electron lens” NSS6 (Kobe, Japan 2010.10.26) H. Daimon, F. Matsui, T. Matsushita “Surface Structure Analysis by Stereo-photograph of atomic arrangement” RJSSS-9 (Vladivostok, Russia 2010.09.26-30) F. Matsui, M. Hashimoto, T. Matsushita, N. Maejima, H. Matsui, K. Goto, Y. Kato, H. Daimon “Negative contrast photoelectron diffraction replica in secondary electron angular distribution” VUVX2010 (Vancouver, Canada 2010.07.12) N. Maejima, F. Matsui, K. Goto, N. Nishikayama, H. Matsui, M. Hashimoto, T. Matsushita, Y. Kato, S. Tanaka, H. Daimon “Atomic structure analysis of silicon oxynitride thin film on 6H-SiC(0001) by two-dimensional photoelectron diffraction” VUVX2010 (Vancouver, Canada 2010.07.12) H. Matsui, F. Matsui, N. Nishikayama, M. Hashimoto, K. Goto, N. Maejima, K. Tanaka, T. Matsushita, Y. Kato, T. Okamoto, A. N. Hattori, Y. Sano, K. Yamauchi, H. Daimon “Structure analysis of graphene grown on 4H-SiC(0001) surface by two-dimensional photoelectron diffraction” VUVX2010 (Vancouver, Canada 2010.07.12) M. Hashimoto, F. Matsui, T. Matsushita, F.Z. Guo, Y. Kato, H. Daimon “Circular Dichroism of Photoelectron Diffraction Rings from Ga/Si(111)” ALC 09 (Hawaii, USA 2009.12.10) L. Tóth, H. Matsuda, K. Goto, H. Nojiri, M. Hashimoto, F. Matsui, H. Daimon “Display-type Ellipsoidal Mesh Analyzer for Microscopic and High-resolution Two-dimensional Photoelectron Spectroscopy” ALC 09 (Hawaii, USA 2009.12.10) 【Invited】F. Matsui, T. Matsushita, H. Daimon “Atomic-layer-resolved analysis of surface magnetism by diffraction spectroscopy” ICESS-11 (Nara, Japan 2009.10.06) M. Hashimoto, F. Matsui, T. Matsushita, Y. Kato, H. Daimon “Photoelectron diffraction rings of Ga adsorbed Si(111) surface and their circular dichroism” ICESS-11 (Nara, Japan 2009.10.06) M. Takizawa, H. Namba, F. Matsui, H. Daimon “Photoelectron intensity modulation of the Fermi surface on graphite with photon energy” ICESS-11 (Nara, Japan 2009.10.07) H. Nojiri, H. Matsuda, L. Tóth, K. Goto, M. Hashimoto, F. Matsui, H. Daimon “New 1pi steradian display-type ellipsoidal mesh analyzer as a low-magnification PEEM” ICESS-11 (Nara, Japan 2009.10.07) K. Goto, F. Matsui, T. Matsumoto, N. Nishikayama, T. Matsushita, Y. Kato, C.S. Fadley, H. Daimon “Circular dichroism of photoelectron diffraction of transition metal dichalcogenides” ICESS-11 (Nara, Japan 2009.10.08) N. Nishikayama, F. Matsui, K. Goto, T. Matsumoto, K. Tanaka, T. Matsushita, Y. Kato, H. Daimon “Stereophotograph of graphene on vicinal 4H-SiC(0001) surface”ICESS-11 (Nara, Japan 2009.10.08) M. Yoshimura, F. Matsui, H. Daimon “Structure of L-tyrosine adsorbed on atomically controlled Au/Si(111) surfaces” ACSIN10 (Granada, Spain 2009.09.24) F. Matsui, T. Matsushita, Y. Kato, M. Hashimoto, H.Daimon “Resolving subsurface magnetism at atomic by diffraction spectroscopy” XAFS 14 (Camerino, Italy 2009.07.26-31) F. Matsui, T. Matsushita, Y. Kato, K. Goto, H. Daimon “Recent status of 2D photoelectron spectroscopy experimental station at SPring-8” XAFS 14 (Camerino, Italy 2009.07.26-31) H. Daimon, K. Goto, H. Matsuda, F. Matsui “Application of Wide Acceptance Angle Electrostatic Lens to high-energy two-dimensional photoelectron spectroscopy” EMRS 2009 Spring Meeting (Strasbourg, France 2009.06.09) K. Goto, F. Matsui, T. Matsumoto, N. Nishikayama, T. Matsushita, Y. Kato, H. Daimon “Magnetic structure analysis of Gd film by Auger electron diffraction and XMCD” EMRS 2009 Spring Meeting (Strasbourg, France 2009.06.09) F. Matsui, T. Matsushita, Y. Kato, C. Sakai, T. Narikawa, K. Goro, T. Matsumoto, H. Daimon “Diffraction Spectroscopy for Probing Subsurface Resolution and Selectivity” ISSS-5 (Tokyo, Japan 2008.11.09-13) K. Goto, F. Matsui, T. Matsushita, Y. Kato, H. Daimon “Circularly polarized light 2D- PED/XAS of Fe (111) surface” ISSS-5 (Tokyo, Japan 2008.11.09-13) T. Matsumoto, F. Matsui, T. Matsushita, K. Goto, H. Daimon “Stereophotograph of InP(001) surface” ISSS-5 (Tokyo, Japan 2008.11.09-13) M. Yoshimura, M. Ono, F. Matsui, H. Daimon “Adsorption structure of L-tyrosine on Si(111)5×2,√3 × √3-Au surface” ISSS-5 (Tokyo, Japan 2008.11.09-13) H. Daimon, L. Tóth, K. Goto, H. Matsuda, F. Matsui “Two-dimensional photoelectron spectroscopy by conventional and newly-developed display analyzer” ISSS-5 (Tokyo, Japan 2008.11.09-13) H. Daimon, H. Matsuda, L. Tóth, K. Goto, F. Matsui “Performance of Stereo-PEEM for Taking Stereo picture of Atomic Arrangement in Laboratory” VASSCAA-4 (Matsue, Japan 2008.10.28-31) H. Daimon, L. Tóth, K. Goto, H. Matsuda, F. Matsui “Development of Stereo-PEEM and a new display analyzer for Stereo-pictures of atomic arrangement” LEEM/PEEM-6 (Trieste, Italy 2008.07.07-11) K. Goto, L. Tóth, H. Matsuda, F. Matsui, H. Daimon “Construction of Display-type Ellipsoidal Mesh Analyzer for Imaging as well as Electron Energy and Angular Distribution Analysis” LEEM/PEEM-6 (Trieste, Italy 2008.07.07-11) T. Matsushita, F.Z. Guo, F. Matsui, H. Daimon “Three-dimensional atomic image reconstructing from a single-energy electron hologram” NSSS-4 (Athens, Ohio, USA 2008.07.15-19) M. Yoshimura, F. Matsui, H. Daimon “Adsorption structure of L-Tyrosine on Si(111)7x7 surface” ACSIN-9 (Tokyo, Japan 2007.11-15) T. Narikawa, F. Matsui, Y. Kato, K. Inaji, C. Sakai, T. Matsushita, H. Daimon “Direct observations of Si adatom and dimer atom from O atoms inserted in backbonds by Auger electron diffraction” ACSIN-9 (Tokyo, Japan 2007.11-15) Z. Janosfalvi, F. Matsui, N. Takahashi, M. Akasaka, H. Namba. H. Daimon “Atomic orbitals and photoelectron intensity angular distribution patterns of MoS2 valence band” ACSIN-9 (Tokyo, Japan 2007.11-15) K. Inaji, F. Matsui, Y. Kato, C. Sakai, T. Narikawa, T. Matsushita, F. Z. Guo, H. Daimon “Circular dichroism of forward focusing peaks and diffraction rings in Si 2p photoelectron intensity angular distribution” ACSIN-9 (Tokyo, Japan 2007.11-15) F. Matsui, T. Matsushita, Y. Kato, M. Hashimoto, K Inaji, C. Sakai, T. Narikawa, F. Z. Guo, H. Daimon “Auger diffraction XANES and XMCD for atomic-layer-resolved magnetic structure analysis of Ni magnetic thin film” VUV-XV (Berlin, Germany 2007.07.29-08.03) F. Matsui, T. Matsushita, Y. Kato, K. Inaji, C. Sakai, T. Narikawa, F. Z. Guo, H. Daimon “Origin of forward focusing peaks in graphite valence band photoelectron pattern and their circular dichrosim” VUV-XV (Berlin, Germany 2007.07.29-08.03) N. Takahashi, Y. Hamada, F. Matsui, K. Nakanishi, H. Namba, H. Daimon “Display-type Analyzer(DIANA) for valence band spectroscopy and microscopy” VUV-XV (Berlin, Germany 2007.07.29-08.03) O. Rader, H Wolf, W. Gudat, A. Tadich, L. Broekman, E. Huwald, R. C. G. Leckey, J. D. Rieley, F. Matsui, H. Miyata, H. Daimon, A. M. Shikin “On the problem of the "three-dimentional" Fermi surface of the Ni monolayer on Cu(100)” VUV-XV (Berlin, Germany 2007.07.29-08.03) C. Sakai, F. Matsui, T. Takeuchi, T. Matsushita, F. Z. Guo, Y. Kato, K. Inaji, T. Narikawa, H. Daimon “Local Structure analysis of Bi2201 and Bi2212 by photoelectron stereophotograph using circularly polarized light” VUV-XV (Berlin, Germany 2007.07.29-08.03) C. Sakai, F. Matsui, N. Takahashi, S. N. Takeda, H. Daimon “Hybridized orbital symmetry determination of the Fermi Energy band of Bi2Sr2CaCu2Oy superconductor by non-polarized light two-dimensional photoelectron spectroscopy” Kyoto conference on Solid State Chemistry (Kyoto, Japan 2006.11.14-18) C. Sakai, F. Matsui, N. Takahashi, S.N. Takeda, H. Daimon “The Hybridized orbital symmetry of the Fermi Energy band of Bi2Sr2CaCu2Oy determined by non-polarized light two-dimensional photoelectron spectroscopy” ISS 2006 (Nagoya, Japan 2006.10.30-11.01) F. Matsui, T. Matsushita, Y. Kato, K. Inaji, F. Z. Guo, H. Daimon “Lateral electronic structure analysis in atomic scale by 2D-XAFS/XMCD” LEEM/PEEM-V (Himeji, Japan 2006.10.15-19) F. Matsui, T. Matsushita, Y. Kato, K. Inaji, F.Z. Guo, H. Daimon “Site-specific orbital angular momentum analysis of graphite valence band” ISSP10 (Kashiwa, Japan 2006.10.09-13) F. Matsui, T. Matsushita, Y. Kato, K. Inaji, F.Z. Guo, H. Daimon “Atomic layer resolved two-dimensional XAFS Ni wedged film on Cu(001)” ISSP10 (Kashiwa, Japan 2006.10.09-13) H. Daimon, T. Matsuta, S. N. Takeda, K. Hattori, F. Matsui “Total analysis of surface structure and properties by UHV transfer system” ISSP10 (Kashiwa, Japan 2006.10.09-13) C. Sakai, F. Matsui, N. Takahashi, S. N. Takeda, H. Daimon “Atomic orbital analysis of the Fermi surface of Bi2Sr2CaCu2Oy by Two-dimensional photoelectron spectroscopy” ISSP10 (Kashiwa, Japan 2006.10.09-13) F. Matsui, T. Matsushita, F. Z. Guo, Y. Kato, M. Hashimoto, K. Inaji, H. Daimon “Element and site selective XAFS and XMCD for surface and thin film” ECOSS 24 (Paris, France 2006.09.04-08) L. Tóth, H. Matsuda, T. Shimizu, F. Matsui, H. Daimon “Wide acceptance angle electrostatic lens for high sensitive and two-dimensional analyzer” ECOSS 24 (Paris, France 2006.09.04-08) F. Matsui, Y. Kato, H. Daimon, T. Matsushita, F.Z. Guo “Photoelectron forward focusing peak as an element and cite specific local probe” SRI 2006 (Daegu, Korea 2006.05.28-06.03) Y. Kato, F. Matsui, H. Daimon, T .Matsushita, F. Z. Guo, T. Tsuno “Determination of Local Dopant site in Superconducting-diamond by Photoelecron Intensity Angular Distribution” SRI 2006 (Daegu, Korea 2006.05.28-06.03) T. Matsushita, F. Z. Guo, T. Muro, F. Matsui, H. Daimon “Real time imaging system of stereo atomic microscope at BL25SU in SPring-8” SRI 2006 (Daegu, Korea 2006.05.28-06.03) 【BEST POSTER賞受賞】N. Takahashi, F. Matsui, S. Shigenai, Y. Hirama, Y. Hamada, K. Nakanishi, H. Namba, H. Daimon “New Display-type analyzer for 3D Fermi surface mapping and atomic orbital analysis” SRI 2006 (Daegu, Korea 2006.05.28-06.03) 【Invited】F. Matsui, Y. Kato, T. Shimizu, F. Z. Guo, T. Matsushita, T. Tsuno, H. Daimon “Graphite and Diamond viewed by Stereo Atomscope” IWSDRM2005 (Tsukuba, Japan 2005.12.07-09) Y. Kato, T. Shimizu, F. Matsui, F. Z. Guo, T. Matsusita, T. Tsuno, S. Katsumoto, H. Daimon “Local boron site of B-Diamond determined by photoelectron intensity angular distribution” IWSDRM2005 (Tsukuba, Japan 2005.12.07-09) F. Matsui, T. Matsushita, F.Z. Guo, Y. Kato, T. Shimizu, H. Daimon “Optimization of Display-type Analyzer for High-Performance Stereoatomscope” ISSS-4 (Omiya, Japan 2005.11.14-17) F. Matsui, T. Wada, K. Sakamoto, S. Takada, T. Suzuki, A. Harasawa, T. Okuda, T. Kinoshita, H. Daimon, “Si 2p 2 core-level photoemission study of initial stage of Si(001) surface oxidation” ISSS-4 (Omiya, Japan 2005.11.14-17) N. Takahashi, F. Matsui, S. Shigenai, K. Nakanishi, Y. Hamada, H. Namba, H. Daimon “Atomic orbital analysis of Fermi surface of NbSe2 by Display-type Analyzer (DIANA)” ISSS-4 (Omiya, Japan 2005.11.14-17) F. Matsui, N. Takahashi, M. Akasaka, K. Nakanishi, Y. Nozawa, H. Namba, Y. Hamada, H. Daimon “Atomic orbital analysis of three-dimensional band dispersion of MoS2 by two-dimensional photoelectron spectroscopy” SSP10 (Prague, Czech 2005.07.10-15) F. Matsui, A. Kobayashi, M. Fujikado, H. Daimon, B.C. Sell, C.S. Fadley “Structural analysis of oxygen segragated Nb(110) surface by photoelectron diffraction” SSP10 (Prague, Czech 2005.07.10-15) H. Daimon, H. Matsuda, L. Tóth, T. Shimizu, F. Matsui “New Photoemission Electron Microscope for Three-dimensional Atomic and Electronic Structure of Nano-materials” EPS13 (Bern, Switzerland 2005.07.11-15) 【BEST POSTER賞受賞】K. Kataoka , F. Matsui, Y. Kato , F. Z. Guo , T. Matsushita ,K. Hattori , H. Daimon “Atomic structure analysis of ultrathin Fe silicide films by stereo atomscope” ICMAT2005, 9th IUMRS-ICAM, VASSCAA-3 (Singapore 2005.07.03-08) M. Honda, F. Matsui, H. Daimon “Chemisorption of Amino Acid on Au(111)/Si(111) and Si(111)√3×√3 - Au Surfaces” ICMAT2005, 9th IUMRS-ICAM, VASSCAA (Singapore 2005.07.03-08) H. Daimon, F. Matsui, F.Z. Guo, Y. Kato, M. Kudo, H. Matsuda “Imaging of 3-dimensional atomic arrangement by stereo atomscope” IVC-16 (Venice, Italy 2004.06.28-07.02) F. Matsui, F. Z. Guo, H. Daimon “Two-dimensional photoelectron spectroscopy for analysis of atomic and electronic structure” ACSIN-7 (Nara, Japan 2003.11.16-20) A. N. Hattori, M. Fujikado, S. Okamoto, K. Fukumoto, F. Z. Guo, F. Matsui, K. Nakatani, T. Matsushita, K. Hattori, H. Daimon “Atomic structure and magnetic property of Fe/Cu(001) by Stereoscopic photography and SMOKE” ACSIN-7 (Nara, Japan 2003.11.16-20) 【BEST POSTER賞受賞】F. Z. Guo, F. Matsui, M. Fujikado, T. Matsushita, H. Daimon “Stereo-photography of graphite atomic arrangements measured by display-type spherical mirror analyzer” ACSIN-7 (Nara, Japan 2003.11.16-20) K. Kataoka, K. Hattori, Y. Miyatake, F. Matsui, S. Nishino Takeda, H. Daimon “LEED and STM study of β-FeSi2 epilayers grown on Si(111)” ACSIN-7 (Nara, Japan 2003.11.16-20) M. Honda, F. Matsui, N. Masunaga T. Nishimura, S. Nishino Takeda, K. Hattori, H. Daimon “Chemisorption of amino acid on the Au surfeces” ACSIN-7 (Nara, Japan 2003.11.16-20) F. Matsui, H. Miyata, O. Rader, Y. Hamada, Y. Nakamura, K. Nakanishi, T. Wada, Y. Nozawa, H. Namba, H. Daimon “Two-Dimensional Photoelectron Spectroscopy for Atomic Orbital Analysis Cu(001) Fermi Surface and Valence Band” ICESS-9 (Uppsala, Sweden 2003.06.28-07.04) 【BEST POSTER賞受賞】F. Matsui, H. Miyata, O. Rader, Y. Hamada, Y. Nakamura, K. Nakanishi, K. Ogawa, H. Namba, H. Daimon “Atomic Orbital Analysis of Cu(001) Valence Band by Two-Dimensional Photoelectron Spectroscopy” Asia-Pacific Surface Interface Analysis Conference (Tokyo, Japan 2002.10.01-04) T. Nohno, F. Matsui, Y. Hamada, H. Matsumoto, S. Takeda, K. Hattori, H. Daimon “Development of two-dimensional display-type photoelectron spectrometer in the UPS region” Asia-Pacific Surface Interface Analysis Conference (Tokyo, Japan 2002.10.01-04) F. Matsui, H. Miyata, Y. Hori, H. Namba, H. Daimon “Three-dimensional band mapping and orbital analysis by linearly- Polarized light two-dimensional photoelectron spectroscopy” ICSRMS-3 (Singapore 2002.01.21-24) F. Matsui, H. Miyata, H. Namba, H. Daimon “Linearly polarized light two-dimensional photoelectron spectroscopy Band dispersion of Kish graphite in three-dimensions” ALC`01 (Nara, Japan 2001.11.11-14) 【BEST POSTER賞受賞】F. Matsui, Y. Hori, H. Totsuka, H. Miyata, T. Matsushita, H. Namba and H. Daimon “Photon energy dependence of umklapp scattered transitions and three-dimensional band dispersion of Kish graphite” VUV-VIII (Trieste, Italy 2001.07.23-27) F. Matsui, H.W. Yeom, K. Amemiya, K. Tono, T. Ohta “O2 molecular chemisorption states in the initial oxidation of the Si(111)77” ICSOS-6 (Vancouver, Canada 1999.07.26-30) F. Matsui, H.W. Yeom, A. Imanishi, K. Isawa, I. Matsuda, K. Tsuduki, K. Tono, T. Ohta “Adsorption of ethylene and benzene on the Si(001)2x1 surface studied by x-ray absorption and photoemission spectroscopies” IVC-14 (Birmingham, UK 1998.08.31-09.04) F. Matsui, H.W. Yeom, A. Imanishi, I. Matsuda, T. Ohta “Adsorption and thermal decomposition of acetylene on the Si(001)2x1 surface studied by NEXAFS and UPS” ICES-7 (Chiba, Japan 1997.09.08-12) 以下は本サイト@wikiのスポンサーの広告です。
https://w.atwiki.jp/j-simulator/pages/56.html
Publications Development of the Visible-Infrared Simulator (new to old) Nakajima, T., and M. Tanaka, 1988 Algorithms for radiative intensity calculations in moderately thick atmospheres using a truncation approximation. J. Quant. Spectrosc. Radiat. Transfer, 40, 51-69. Nakajima, T., and M. Tanaka, 1986 Matrix formulations for the transfer of solar radiation in a plane-parallel scattering atmosphere. J. Quant. Spectrosc. Radiat. Transfer, 35, 13-21. back edit
https://w.atwiki.jp/croquette/pages/60.html
Medical write-up about normal Physical findings in English 11/07/00 Hisamatsu,M.D. カルテの記入は日本語で書くことが望ましいですが、身体所見の記載に関しては、英語のほうがより コンパクトにまとめられるのではと思います。正常所見の英語による記載方法例を作成してみました。 注)※の印は異常所見の書き方の例です。 身体所見=Physical examination 身体所見上異常認めず= Physical examination reveals(shows,discloses) no abnormalities. Physical examination are normal. Physical findings are normal. There are no abnormal findings on Physical examination VS=Vital Signs T36℃(36 degrees in Celsius or centigrade) , P88 , R14 , BP130/80(130 over 80と読む) General appearance Development(体格),nourishment(栄養) well-developed, well-nourished, poorly developed,poorly nourished, fatty,obese,thin,lean Degree of illness be in distress, be acutely ill appear to be in no distress, appear severely ill appear to be in acute distress, appear to be in mild respiratory distress seem to be in distress Level of consciousness(意識レベル) normal, lethargy,somnolence,drowsy, stupor, coma, alert ,cooperative and oriented ×3 (oriented as to time,person,place) Emotional state(感情) look anxious, appear to be in depressed state 例) General appearance the pt is a well-developed, obese man. appears to be in no distress,but in depressed state. consciousness alert ,cooperative, and oriented×3 HEENT(Head Eyes Ears Nose Throat) Head Normocephalic and atraumatic or Normal in size and shape, No tenderness Eyes PERRLA(Pupil equal, round,reactive to light and accommodation) Visual acuity intact or Visual acuity is 1.2 on the right EOM intact bulbar (palpebral) conjunctiva not injected or congested, no icterus, no pallor Optic funds not visible(観察できず), no abnormalities,no papilledema, exudate and bleeding Ears Hearing acuity intact or wnl (within normal limits) Tympanic membranes (Eardrums) clear with good light reflex Nose No discharge,symmetrical,septum midline,mucous membranes are not injected or congested patent (No obstruction) Sinuses No tenderness,discharge Mouth / Throat Teeth intact ,mucosa moist,gingiva normal Tongue moist,well-papillated,midline uvula midline, no injection,exudate of tonsil no tonsillar enlargement ※All teeth are absent (missing), oral hygiene is poor Neck supple (not stiff, no stiffness,no nuchal rigidity) trachea midline No thyromegaly (No enlargement of thyroid, Not increased in size), non-tender thyroid ,soft on palpation No lymphadenopathy (no enlargement of cervical lymph node,lymph node not palpable, not palpated) Carotid (artery) equal and normal upstroke and in size,no bruit Jugular vein is not distended ( Jugular venous pulsations are not visible, not distended, not elevated) ※JVP are distended (elevated) to a level of 5 cm above sternum angle at 45 degrees of elevation. Back No CVA tenderness, no deformity of the back and spine CVS(cardiovascular system) Regular rate rhythm (RRR),Non-dislocated PMI ,normal in size and intensity (PMI is visible and palpated in the 5th interspace at the LMCL (left midclavicular line) inside ... medial to ... ※outside ... ※lateral to ... ※IRIR(irregularly irregula rate rhythm) Diffuse PMI is shifted (dislocated) toward the left and felt (palpated) in the 6th interspace. S1 and S2 normal in intensity, normal split with inspiration No murmur,gallops,rubs (No GMR) ※S3 heard at the apex, Grade 2/6 pansystolic murmur at the apex with radiation to axilla or neck Lung Clear to auscultation and percussion (CTAP), No wheeze,rhonchi, rales(crackles) respiratory movement intact ,symmetrical diaphragmatic excursion 5 cm,symmetrical (diaphragm descended to 4cm) tactile (vocal) fremitus wnl ※dullness to percussion on the left side vocal fremitus decreased (increased) Abdomen the wall flat and soft, normal active bowel sound (NABS), no masses,bruits liver size normal by percussion in MCL (10 cm by percussion in MCL or percussed at 9 cm in MCL) normal liver edge spleen size normal by percussion , kidney not palpated ※the wall distended or scapohid(depressed) ー 腹部は膨満もしくは陥凹 Liver palpated 2 cm below the right costal margin Skin (integument) no clubbing ,cyanosis,edema (No CCE) Extremities No deformity Example PMH),FH) unremarkable Physical examination) VS T36℃ , P88 , R14 , BP130/80 General appearance the pt is a well-developed, obese man. appears to be in no distress,but in depressed state. Consciousness alert ,cooperative, and oriented×3 HEENT Head Normocephalic and atraumatic, no tenderness Eyes PERRLA,Visual acuity intact, EOM intact , bulbar and palpebral conjunctiva not injected or congested, no icterus, no pallor fundi no papilledema, exudate and bleeding Ears Hearing acuity wnl ,Tympanic membranes clear with good light reflex Nose No discharge,symmetrical,septum midline,mucous membranes are not injected ,patent Sinuses No tenderness,discharge Mouth / Throat Teeth intact ,mucosa moist,gingiva normal, Tongue moist,well-papillated,midline uvula midline, no injection,exudate of tonsil Neck supple ,trachea midline, No thyromegaly,No lymphadenopathy Carotid equal and normal upstroke and in size,no bruit, jugular venous pulsations are not elevated) Back No CVA tenderness, no deformity of the back and spine CVS RRR,Non-dislocated PMI ,normal in size and intensity S1 and S2 normal in intensity, normal split with inspiration, No murmur,gallops,rubs Lung Clear to auscultation and percussion , No wheeze,rhonchi, rales respiratory movement intact ,symmetrical, diaphragmatic excursion 5 cm,symmetrical , tactile and vocal fremitus wnl Abdomen the wall flat and soft, normal active bowel sound ,no masses,bruits liver size normal by percussion in MCL ,normal liver edge spleen size normal by percussion , kidney not palpated Skin (integument) no clubbing ,cyanosis,edema (No CCE) Extremities No deformity Pulse carotid brachial radial femoral popliteal post tibial dosalis pedis Rt + + + + + + + Lt + + + + + + +
https://w.atwiki.jp/tokimekicn/pages/1754.html
はい!Tension 赤井焰与一文字茜的Image Song之一。 歌曲信息 作词:くまのきよみ 作曲,编曲:広瀬充寿 Guitar:Masahiro Ogura Bass:Jimmy Maeda Drums All Other Instruments:Michitoshi Hirose Chorus:Hiroko Shigezumi 演唱:くまいもとこ,野村真弓 歌词 太陽までつっきっちゃえ 持て余したエネルギー まってたぜ 今こそ ぶっとばして 走り出せ 時間さえ吹っ飛んじゃう 大騒ぎすればハッピー まってたよ 今こそ はやくノッた方が勝ち ジョーシキは気にしない クヨクヨなんて似合わない Tension! (Take me, baby) 踊って Action! (Shake your body) 君へと Motion! (Love Love baby) ずっと はい!Tension 興奮度はてっぺんまで 自由には限界がない まっていた この時 ジャンプしよう 届くまで 暗い顔じゃつまんない 気をつかってちゃ疲れない? Tension! (Take me, baby) 熱いぜ Passion! (Shake your body) ぜんぶ Non-Fiction! (Love Love baby) ずっと はい!Tension リアリティ抱いて 明日が怖くって 泣きそうな時もある 君にあいたい やっとあえたね だから今だけは Woo 最高の Tension! (Take me, baby) 踊って Action! (Shake your body) 大好きでしょ? (Love Love baby) もっと はい!Tension (Take me, baby) 踊って Action! (Shake your body) 君へと Motion! (Love Love baby) ずっと はい!Tension (Everyboby) みんな はい!Tension! 收录CD 心跳回忆2 Vocal Tracks2 (2000/05/10) 相关页面 音乐
https://w.atwiki.jp/mrfrtech/pages/45.html
Market Scenario Digital technology Computerized innovation today essentially utilizes two detects like sound and sight. Yet, it may not be well before a human can taste, feel and smell computerized objects in a way that is indistinct from actual encounters. With the innovative high-speed advances in AR (Augmented Reality) and VR (Virtual Reality) applications and the hyper-availability of 5G, computerized encounters will probably move from screen-based to detect situated in the following approaching years. Ericsson’s Research group named the Internet of Senses, where individuals will actually want to feel the world without utilizing contraptions, cell phones included, now characterizes this availability time. It contains six applications smell, taste, sight, psyche, contact, and sound. In the web of faculties, sound, visual, haptic, and different advancements empower people to have computerized tactile encounters like the ones experienced in the actual world. The web of faculties expands human faculties past the limits of bodies, giving increased hearing, contact, vision, and smell. It permits a person to mix multisensory computerized encounters with nearby environmental elements and interface with far-off gadgets, individuals, and robots as though they were right close to him/her. Additionally, the web of faculties will depend on advances including man-made consciousness (AI), increased reality (AR), computer-generated reality (VR), and mechanization to collaborate with human feelings of sound, sight, taste, smell, and contact. Besides, buyers will be the significant client of this innovation in the future as carefully sense will acquire a critical interest in light of this present innovation s endless conceivable use cases. For instance, purchasers could carefully visit backwoods or the open country, including encountering every one of the normal scents feels of those places. An individual could embrace loved ones many miles away. This innovation genuinely holds the potential and could be incredibly gainful for incapacitated individuals. Request a Free Sample @ https //www.marketresearchfuture.com/sample_request/10747 Competitive Outlook The Internet of Senses Market is characterized by the presence of several regional and local providers. Some of the key players in the market are Telefonaktiebolaget LM Ericsson (Sweden) Segmentation The worldwide Internet of Senses has been divided into innovation, application, end client, and district/country. The Internet of Senses Market has been portioned into equipment, programming, and administration in view of the part. Equipment is additionally sorted into gadgets and sensors. In view of innovation, the Internet of Senses Market has been fragmented into Artificial knowledge (AI), Virtual reality (VR), Augmented reality (AR), and others. The market has been portioned into hearing, sight, smell, taste, contact, and brain in view of the application. In view of the end client, the market has been portioned into purchasers and undertakings. Endeavors additionally bifurcated into retail, fabricating, medical care, car, schooling, media and diversion, aviation and safeguard, government, and others. . Regional Analysis The worldwide web of faculties market is relied upon to acquire critical income from the different mainland during the projected period. The geographic investigation of the worldwide Internet of Senses market has been directed for North America, Europe, Asia-Pacific, the Middle East and Africa, and South America. North America is additionally ordered into the US, Canada, and Mexico. Europe is additionally ordered into the UK, Germany, France, and the Rest of Europe. The Asia Pacific is additionally portioned into China, Japan, India, South Korea, and the Rest of Asia Pacific. Industry News Countless representatives expect that innovation will empower individuals to detect the mindset of their partners working on the flavor of container food and different faculties by 2030, as per a report delivered by Ericsson. Browse Full Report Details @ https //www.marketresearchfuture.com/reports/internet-of-senses-market-10747 Table of Contents 1Executive Summary 2Scope of the Report 2.1Market Definition 2.2Scope of the Study 2.2.1Research objectives 2.2.2Assumptions Limitations 2.3Markets Structure Continued…. View Similar Report** Internet of things (IoT) Market https //ictmrfr.blogspot.com/2022/04/internet-of-things-market-growth-key.html B2B Telecommunication Market https //www.scutify.com/articles/2022-04-12-b2b-telecommunication-market-analysis--geographic-growth-opportunities-for-it-security-and-data- Cash Management System Market https //market-research-future.tribe.so/post/cash-management-system-market-size-receives-a-rapid-boost-in-economy-due-to--625d5382d24f49591bd3befb Enterprise Data Warehouse (EDW) Market https //tealfeed.com/enterprise-data-warehouse-market-analysiskey-players-hqfr7 About Market Research Future At Market Research Future (MRFR), we enable our customers to unravel the complexity of various industries through our Cooked Research Report (CRR), Half-Cooked Research Reports (HCRR), Raw Research Reports (3R), Continuous-Feed Research (CFR), and Market Research Consulting Services. Contact Market Research Future (Part of Wantstats Research and Media Private Limited) 99 Hudson Street, 5Th Floor New York, NY 10013 United States of America 1 628 258 0071 (US) 44 2035 002 764 (UK) Email sales@marketresearchfuture.com Website https //www.marketresearchfuture.com #market #research #industry #data #report #share #digital #gnews Plugin Error キーワードを入力してください。 #trend #future #analyis #industryreport #industrygrowth #demographic #strategy #manegment
https://w.atwiki.jp/acwiki/pages/18.html
2-AA/EXTENSION 2-AA/EXTENSION [#of468afc] 補助ブースタ [#a26a2a4d] BEX-BB210 [#q5955f54] BEX-BD150 [#b98dc38a] BEX-BT180 [#gd8ec67e] 連動ミサイル [#ic4eafe8] BEX-BRM-04 [#g52ced95] BEX-BRM-02 [#x9d8a996] ミサイル迎撃装置 [#kf471d7d] EEX-AM45 [#eaf36cb9] ZEX-RS/HOUND [#ua37d1c8] BEX-BAMS-287 [#q8e4a31b] ZEX-AL/REX [#nf0a02ad] 追加装甲 [#e77781ea] BEX-AA00 [#bc555f76] 補助ブースタ BEX-BB210 補助ブースタ、急速後退が可能 2ではイカれた性能だったが、AAで弱体化。軽二などが固め抜けように稀に使用する程度になった。 横に移動していると斜め左右後ろに高速移動する。2では連射可能だったので最凶の回避行動「デンプシーロール」が生まれた。 AAでリロードタイムがついたので、緊急回避程度の使われ方になった。 タイミングを合わせるとEスナなどの高速弾も避けることが可能である。 2の対戦では真っ先に禁止にするべきパーツ。 ENTERPRICE BALENA PRICE 17900c TYPE BACK BOOSTER WEIGHT 140 ENERGY DRAIN 243 BOOST POWER 18000 CHARGE DRAIN 6200 RELOAD TIME 108(2では無し) BEX-BD150 補助ブースタ、急速降下が可能 使う局面が見当たらない。浮ける機体でも自然落下で十分。 噴射中に着地すると必ずドッスン着地になってしまう。(タンク・フロート以外) 一応、フロートで浮いてしまった時に素早く着地できるが、あまり実用性はない 四脚にこれとブレードを装備し、空中で振る瞬間に発動させると脳天唐竹割り。 タイミングがシビアで、実用性はないが。 ENTERPRICE BALENA PRICE 14500c TYPE DIVE BOOSTER WEIGHT 166 ENERGY DRAIN 267 BOOST POWER 16000 CHARGE DRAIN 4920 RELOAD TIME 62(2では無し) BEX-BT180 補助ブースタ、急速旋回が可能 AAでの新パーツ。 最後に入力した方向に旋回する。なので回りたい方向に方向キーを入れなくてはいけない。 重二、タンクなどはこれを積まないとやっていけない。割と基本。 ENTERPRICE BALENA PRICE 24000c TYPE TURN BOOSTER WEIGHT 164 ENERGY DRAIN 268 BOOST POWER 16000 CHARGE DRAIN 6400 RELOAD TIME 87 連動ミサイル ミサイル連続発射中にON・OFFを連打するとリロードを無視して連射できる BEX-BRM-04 強化型連動ミサイル、発射数が増加 テルユキなどが使う。効果は確認しづらい。 普通のミサイルより遅れて出る為、先に出たミサイルがデコイを潰してこちらが当たるという事も。 ENTERPRICE BALENA PRICE 130000c TYPE RELATION MISSILE WEIGHT 390 ENERGY DRAIN 262 ATTACK POWER 780 NUMBER OF AMMO 20 AMMO TYPE SOLID AMMO PRICE 628 AMMO HEAT 60 RANGE 330 USED DRAIN - MAXIMUM LAUNCH 4 RELOAD TIME 60 DISCHANGE REACTION - BEX-BRM-02 ミサイル発射に連動し、追加発射 何故か威力が低いため、上のBRM-04に食われている。 ENTERPRICE BALENA PRICE 65000c TYPE RELATION MISSILE WEIGHT 289 ENERGY DRAIN 128 ATTACK POWER 462 NUMBER OF AMMO 20 AMMO TYPE SOLID AMMO PRICE 448 AMMO HEAT 24 RANGE 600 USED DRAIN - MAXIMUM LAUNCH 2 RELOAD TIME 60 DISCHANGE REACTION - ミサイル迎撃装置 かなり強力な性能。他シリーズとは違う EEX-AM45 敵ミサイルに反応、自動迎撃を行う 微妙な性能。安かろう悪かろう。 ENTERPRICE EMERAUDE PRICE 27700c TYPE ANTI MISSILE WEIGHT 174 ENERGY DRAIN 130 NUMBER OF AMMO 40 AMMO TYPE SOLID AMMO PRICE 102 AMMO HEAT 60 RANGE 300 VS MG ABILITY 48 USED DRAIN - RELOAD TIME 6 DISCHANGE REACTION - ZEX-RS/HOUND 基本性能の高いミサイル迎撃装置 それなりに性能は高い。ディアハンター御用達。 対戦に使うならせめてこれぐらいの弾数は必要 ENTERPRICE ZIO MATRIX PRICE 40900c TYPE ANTI MISSILE WEIGHT 231 ENERGY DRAIN 181 NUMBER OF AMMO 40 AMMO TYPE SOLID AMMO PRICE 136 AMMO HEAT 60 RANGE 230 VS MG ABILITY 62 USED DRAIN - RELOAD TIME 6 DISCHANGE REACTION - BEX-BAMS-287 同時発射数を重視したミサイル迎撃装置 迎撃ミサではこれ1択。 非常に強力で、相手が両肩にミサイルを積んでいない限りほぼ確実に無効化する。 ENTERPRICE BALENA PRICE 57000c TYPE ANTI MISSILE WEIGHT 286 ENERGY DRAIN 117 NUMBER OF AMMO 50 AMMO TYPE SOLID AMMO PRICE 160 AMMO HEAT 60 RANGE 260 VS MG ABILITY 70 USED DRAIN - RELOAD TIME 6 DISCHANGE REACTION - ZEX-AL/REX レーザータイプのミサイル迎撃装置 迎撃性能は最低。ENも消費してしまうため対戦ではまず出番が回ってこない 後のシリーズ程の性能ではない。弾薬費が0なので、ミッションでは役に立たない事もない? ENTERPRICE ZIO MATRIX PRICE 34000c TYPE ANTI MISSILE WEIGHT 270 ENERGY DRAIN 148 NUMBER OF AMMO 40 AMMO TYPE ENERGY AMMO PRICE - AMMO HEAT 0 RANGE 100 VS MG ABILITY 38 USED DRAIN 2200 RELOAD TIME 6 DISCHANGE REACTION - 追加装甲 BEX-AA00 追加装甲、防御力が上昇 AAでの新パーツ。効果は全方位 軽めで、実係数が2上がる。重量対効率はまとも。 左盾と併用した場合、こちらの効果はなくなる。 エンブレムが大きく表示されるオシャレな一品。 ENTERPRICE BALENA PRICE 49000c TYPE ADDITIONAL ARMOR WEIGHT 132 ENERGY DRAIN 4 DEF SHELL 102 DEF ENERGY 30
https://w.atwiki.jp/satoschi/pages/7736.html
ケンスィウ語 |Austro-Asiatic languages|Mon-Khmer languages| 言語類型 現用言語 使用文字 ラテン文字【Latn?】タイ文字【Thai?】 type living language writing system Latin alphabetThai alphabet ISO 639-3 【kns】 言語名別称 alternate names Belubn Kenseu Kense Kensieu Kensiw Maniq Mawas Mendi メンディ語 Mengo Menik Meni Monik Moniq Moni Mos Ngok Pa Orang Bukit Orang Liar Sakai Tiong ケンシウ語 方言名 dialect names Ijoh (Ijok) Jarum Jeher (Sakai Tanjong of Temongoh) Kedah (Quedah) Kensiu Batu Kensiu Siong Kentaq Nakil Plus Ulu Selama 参考文献 references WEB ISO 639-3 Registration Authority - SIL International the LINGUIST List Ethnologue
https://w.atwiki.jp/niconicomugen/pages/11118.html
任天堂から発売されたゲームハード。前世代機のWii Uに続いてHD画質の任天堂ハードである。 HD画質のゲーム機でありながら、本体そのものにタッチスクリーンが搭載されており、 TV画面に繋いだドックから取り外して据置だけでなく携帯機としても使えるのが最大の特徴。 そのためこれまでゲームボーイシリーズやNintendoDSシリーズなどの任天堂携帯機向けで展開されてきたゲーム作品も、 この世代のシリーズ新作はすべてSwitch向けに一本化されている。 タッチスクリーンの側面にはJoy-Conと呼ばれるコントローラーが装着されており、 外す事で二人プレイでのコントローラーにも使える。 Joy-Con装着時のカチッという音はCMでも採用されている。 モニターに出力する際は充電器を兼ねた「Nintendo Switchドック」にタッチスクリーンを刺して、HDMIケーブルをテレビに接続する。 同梱の「Joy-Conグリップ」にJoy-Conを嵌める事で、冒頭の画像の様に、スティックが双方に付いた一人用のコントローラーとしても使える。 Wii Uまでとは異なり、オンラインプレイは月額課金プラン「Nintendo Switch Online」への加入が必須となる。 基本プランは配信されているFC、SFC、GBのソフトが遊ぶ事もでき、追加パックに課金する事で64、GBA、メガドライブのソフトもプレイ可能。 後にバリエーションとして、携帯機専用の「Nintendo Switch Lite」と、液晶画面部を有機ELディスプレイにした仕様「有機ELモデル」も発売された。 MUGENにおけるNintendo Switch Makaibros氏とWeobros氏が共同製作したものと、TOMMY Attacks!氏による改変版が公開中。 ゲームハードそのものをキャラクター化したもので、Switchのソフトに因んだ技が実装されている。 ここでは改変版について解説する。 操作方法は3ボタン方式。 必殺技と超必殺技が下記の通り非常に豊富。 必殺技は以下の9種。 カウボーイハットを被り、『1-2-Switch』のJoy-Conを投げつける飛び道具「Fire!」 『スーパーマリオオデッセイ』のキャッピーを投げつける飛び道具「Cappy」 『スーパーボンバーマンR』のボムを放物線上に投げつける飛び道具「Bomb Throw」 その場でJoy-Conを横に倒し、回転攻撃を放つ「Switching Spinning」 Joy-Conを回転させつつ、ゆっくりと飛ばす飛び道具「Controller Throw」 『マリオ+ラビッツ キングダムバトル』のハンマーで殴る「Hammer Smash」 『マリオカート8 デラックス』のマリオを呼び、轢き逃げさせる「Mario Assist」 『ゼルダの伝説 ブレスオブザワイルド』のリンクを呼び、マグネキャッチ、リモコンバクダン、ビタロックのいずれかで攻撃させる「Link Assist」 『ARMS』のスプリングマンを呼び、殴らせる「Spring Man Assist」 同じストライカーは一度に一人しか呼べないが、別のストライカーを続けて出す事はできる。 よってゲージさえあれば最も発生が速いMario Assistの後、間伐入れずにLink AssistやSpring Man Assistで追い討ちをかけるといった芸当も可能。 超必殺技は以下の12種。 Joy-Conを放物線上に投げまくる飛び道具「Controller Craziness」 『ロックマン11』におけるブロックマンのブロック落としを前方に発生させる「Brick Weapon」 浮き上がった後、着地して自分を中心に攻撃判定を発生させる『スプラトゥーン2』におけるスーパーチャクチを再現した「Splashdown」 やたらデカい『Nintendo Labo』のロボットに殴らせる「Labo Robot」 『ショベルナイト』のショベルで殴りまくる「For Shovelry!」 Joy-Conを飛ばして正面に着地させた後、相手に突っ込ませる「Rocket Controller」 『ゼルダの伝説 ブレスオブザワイルド』のガーディアンにロックオンさせた後、一直線のレーザーで撃つ「Guardian」 『ソニックマニア』『ソニックフォース』のファントムルビーを呼び出した後、自身の分身を生成する「The Phantom Ruby」 マリオのSEでジャンプした後、電気の球体を自分中心に作って攻撃する「Electricity Sphere」 『スーパーマリオオデッセイ』のキャプチャーで相手を捕まえた後、爆発し放送事故の画面が出る「Cap'ture」 巨大なドックで相手を押し潰す「Giant Console」 ライフ250以下の時に3ゲージ消費する事で、突如背景が真っ暗になってしばらく電子音が流れた後、earrapeの如く突然大きい音を鳴らす即死攻撃「Glitchy_Lands」 For Shovelry!はフルヒットで5割、Electricity Sphereは6割、Cap'ture6.5割、Giant Consoleは4.5割の火力を誇る。 AIは未搭載だが、某所にてDaMarioMemer氏によるAIが本体同梱で公開されている。 紹介動画(公開先へのリンク有り) 出場大会 「[大会] [Nintendo_Switch]」をタグに含むページは1つもありません。
https://w.atwiki.jp/hespaus/pages/107.html
Sensibility 感受性、感性という意味の英単語。 第236話のタイトルおよびBGM
https://w.atwiki.jp/fmatui/pages/137.html
Development of a new methodology for surface science by adding one more dimension Next Chapter 2 Introduction 光電子放出角度分布(PIAD)には固体の電子物性に関するありとあらゆる情報が反映されている。特に励起原子周りの局所的な原子間結合方向に現れる光電子の前方散乱ピーク(FFP)は元素及びsite選択的な優れた局所プローブである。我々はこれまで様々な偏光・エネルギー特性を生かした二次元光電子分光(2D-PES)の開発に携わってきた。例えば、円偏光(CP)軟X線2D-PESではPIADに現れるFFPの円二色性を利用し、元素選択的な立体原子写真の撮影が行える[1,2]。他方、直線偏光(LP)真空紫外線2D-PESでは価電子帯(VB)分散・等エネルギー面図の立体イメージング[3]と原子軌道解析[4]が可能となる。 2D-PESには試料をまわして測定する方式と、PIADを一度に取り込みそれを光・光電子のエネルギーごとに測定していく方式がある。特に後者の方式には、実空間での異なる場所ごとの2D-PES測定が容易なことから、「顕微」2D-PESの道が開かれている。本稿ではエネルギー・角度・位置分解能の向上による最近の成果についても紹介したい[4,5]。 まず、次節で2D-PESの特徴と、この手法を実現するための分析器について述べる。3節では価電子帯の分散の測定に関する研究を紹介する。続く4節では内殻のPIADのFFPの円二色性を用いた立体原子写真法について説明する。さらに、最近価電子帯に円偏光軟X線2D-PESを適応した場合、各分散の軌道モーメント解析ができることを見出した。5節では、FFPを利用した「site選択的な価電子帯の電子状態の解析」について紹介する。最後に2D-PESの発展形としてAuger電子放出角度分布(AIAD)から得られる二次元X線吸収分光(2D-XAFS)についてふれる。 [1] H. Daimon, Phys. Rev. Lett., 86, 2034 (2001). [2] F. Matsui, H. Daimon, F. Z. Guo and T. Matsushita, Appl. Phys. Lett., 85, 3737 (2004). [3] F. Matsui, Y. Hori, H. Miyata, N. Suganuma, H. Daimon, H. Totsuka, K. Ogawa,T. Furukubo and H. Namba, Appl. Phys. Lett., 81, 2556 (2002). [4] F. Matsui, H. Miyata, O. Rader, Y. Hamada, Y. Nakamura, K. Nakanishi, K. Ogawa, H. Namba and and H. Daimon, Phys. Rev. B, 72, 195417 (2005). [5] 松井文彦、加藤有香子、郭方准、松下智裕、大門寛, 表面科学, 26, 746 (2005). PIAD photoelectron intensity angular distribution FFP Forward focusing peak 2D-PES Two-dimensional photoelectron spectroscopy CP circular polarization / circularly polarized LP linear polarization / linearly polarized VB valence band AIAD Auger electron intensity angular distribution 2D-XAFS 2D x-ray absorption fine structure 以下は本サイト@wikiのスポンサーの広告です。