Researcher Database

Researcher Profile and Settings

Master

Affiliation (Master)

  • Faculty of Science Physics Electronic Condensed Matter Physics

Affiliation (Master)

  • Faculty of Science Physics Electronic Condensed Matter Physics

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Profile and Settings

Profile and Settings

  • Name (Japanese)

    Fukuoka
  • Name (Kana)

    Shuhei
  • Name

    201601017890293429

Achievement

Research Interests

  • 磁気共鳴   熱測定   強相関電子系   電子物性   分子性導体   

Research Areas

  • Natural sciences / Magnetism, superconductivity, and strongly correlated systems

Research Experience

  • 2015/12 - Today Hokkaido University Faculty of Science, Department of Physics
  • 2014/04 - 2015/12 The University of Tokyo The Institute for Solid State Physics

Education

  •        - 2014/03  Osaka University  Graduate School of Science
  •        - 2011/03  Osaka University  Graduate School of Science
  •        - 2009/03  Osaka University  School of Science  Department of Chemistry

Published Papers

  • S. Fukuoka, T. Oka, Y. Ihara, A. Kawamoto, S. Imajo, K. Kindo
    Physical Review B 109 (19) 2469-9950 2024/05/13
  • Rikumaru Saito, Takuya Kobayashi, Hiromi Taniguchi, Shuhei Fukuoka, Atsushi Kawamoto
    Physical Review B 108 (15) 2469-9950 2023/10/09
  • R. Kumar, A. Chakraborty, S. Fukuoka, F. Damay, E. Kermarrec, P. L. Paulose, Y. Ihara
    Physical Review B 107 (13) 2469-9950 2023/04/24
  • N. Yasumura, T. Kobayashi, H. Taniguchi, S. Fukuoka, A. Kawamoto
    Physical Review B 106 (24) 2469-9950 2022/12/05
  • S. Fukuoka, Y. Ito, Y. Ihara, A. Kawamoto
    Physical Review B 105 (13) 2469-9950 2022/04/25 [Refereed]
  • Rikumaru Saito, Youhei Iida, Takuya Kobayashi, Hiromi Taniguchi, Noriaki Matsunaga, Shuhei Fukuoka, Atsushi Kawamoto
    Physical Review B 105 (16) 2022/04/11 [Refereed]
  • Shuhei Fukuoka, Atsushi Kawamoto
    Chemistry Letters 51 (4) 375 - 385 0366-7022 2022/02/01 [Refereed]
     
    Organic conductors consisting of donor and anion molecules provide various important study fields such as superconductivity and electron correlation. pi electrons are responsible for the emergence of these phenomena. On the other hand, the coexistent systems of pi electrons and localized 3d spins have been realized by introducing magnetic anions. Such coexistent systems are called pi-d systems. In pi-d systems, various fascinating magnetic and conducting phenomena are observed due to the coupling of pi electrons and localized 3d electrons (pi-cl interaction). One of the most striking phenomena is magnetic field-induced superconductivity, which is first observed in X-(BETS)(2) FeCl4, where BETS is bis(ethylenedithio)tetraselenafulvalene. On the other hand, X-(BETS)(2)FeCl4 shows a metal-insulator transition accompanying an antifeffomagnetic ordering at TN of 8.3 K and the unconventional antifeffomagnetic state that 3d spins behave as if they stay paramagnetic even below TN. These phenomena are also considered to be caused by the pi-cl interaction, but their mechanisms have not been demonstrated.Recently, a new lambda-type pi-cl system of lambda-(BEDT-STF)(2)FeCl4, where BEDT-STF is bis(ethylenedithio)dithiadiselenafulvalene, has been developed. In this review, the influence of bandwidth control by donor substitution and the dilution effect of magnetic ions on the magnetic properties of the pi-d system will be discussed. We will demonstrate that site-selective magnetization measurements by C-13 NMR and Fe-57 Mossbauer measurements and heat capacity measurements provide important information to understand the mechanism of unconventional magnetic properties in pi-d systems. We would also like to introduce the advantages of the C-13 NMR measurements using one-sided C-1(3)-enriched donor molecules, which are the key technique in our experiments.
  • Yuto Ishii, G. Sala, M. B. Stone, V. O. Garlea, S. Calder, Jie Chen, Hiroyuki K. Yoshida, Shuhei Fukuoka, Jiaqiang Yan, Clarina dela Cruz, Mao-Hua Du, David S. Parker, Hao Zhang, Cristian D. Batista, Kazunari Yamaura, A. D. Christianson
    Physical Review Materials 5 (6) 2021/06/28 [Refereed]
  • Shuhei Fukuoka, Kaduki Haruyama, Yoshihiko Ihara, Atsushi Kawamoto
    Journal of the Physical Society of Japan 90 (4) 043702 - 043702 0031-9015 2021/04/15 [Refereed]
     
    lambda-type molecular pi-d systems are coupled systems consisting of pi electron systems with strong magnetic interactions and 3d electron systems with weak magnetic interactions. They exhibit an unconventional antiferromagnetic ground state in which the 3d spins behave as if they remain paramagnetic even below T-N. In this study, we investigated the anion substitution effects of lambda-(BEDT-STF)(2)FexGa1-xCl4 by heat capacity measurements. A Schottky-type anomaly was observed for all alloy compounds (0.1 <= x <= 1.0). We found that the exchange field, which is the origin of this Schottky-type anomaly, decreases with the Fe content. Based on these results, we discuss the role of each magnetic interaction involved in the stabilization of the antiferromagnetic ground state and emergence of paramagnetic-like behavior.
  • Shuhei Fukuoka, Takaaki Minamidate, Noriaki Matsunaga, Yoshihiko Ihara, Atsushi Kawamoto
    Journal of the Physical Society of Japan 89 (7) 073704 - 073704 0031-9015 2020/07/15 [Refereed][Not invited]
     
    We performed heat capacity measurements on the molecular pi-d system lambda-(BEDT-STF)(2)FeCl4 to discuss the unconventional paramagnetic-like behavior. We observed a Schottky-type anomaly below T-N of 16 K which is inherent in the 3d spin degrees of freedom as is observed in lambda-(BETS)(2)FeCl4. This result suggests that the paramagnetic-like behavior is not a unique behavior in lambda-(BETS)(2)FeCl4 but a universal behavior in lambda-type pi-d systems. In the case of lambda-(BETS)(2)FeCl4, a metal-insulator (M-1) transition occurs simultaneously with the antiferromagnetic transition at T-N of 8.3 K, and the paramagnetic-like behavior is observed below T-N. Because lambda-(BEDT-STF)(2)FeCl4 is insulating over the entire temperature range, our results revealed that the M-I transition is not essential for the emergence of the paramagnetic-like behavior. By comparing the thermodynamic nature of lambda-(BEDT-STF)(2)FeCl4 and lambda-(BETS)(2)FeCl4, we discuss the possible origin of the paramagnetic-like behavior.
  • S. Fukuoka, T. Minamidate, Y. Ihara, A. Kawamoto
    Physical Review B 101 (18) 2469-9950 2020/05/01 [Refereed][Not invited]
  • Ihara Y, Moribe K, Fukuoka S, Kawamoto A
    PHYSICAL REVIEW B 100 (6) 2469-9950 2019/08/20 [Refereed][Not invited]
  • Fukuoka Shuhei, Fukuchi Sotarou, Akutsu Hiroki, Kawamoto Atsushi, Nakazawa Yasuhiro
    CRYSTALS 9 (2) 2073-4352 2019/02 [Refereed][Not invited]
     
    Thermodynamic picture induced by pi-d interaction in a molecular magnetic superconductor kappa-(BETS)(2)FeX4 (X = Cl, Br), where BETS is bis(ethylenedithio)tetraselenafulvalene, studied by single crystal calorimetry is reviewed. Although the S = 5/2 spins of Fe3+ in the anion layers form a three-dimensional long-range ordering with nearly full entropy of Rln6, a broad hump structure appears in the temperature dependence of the magnetic heat capacity only when the magnetic field is applied parallel to the a axis, which is considered as the magnetic easy axis. The scaling of the temperature dependence of the magnetic heat capacity of the two salts is possible using the parameter of |J(dd)|/k(B) and therefore the origin of the hump structure is related to the direct magnetic interaction, J(dd), that is dominant in the system. Quite unusual crossover from a three-dimensional ordering to a one-dimensional magnet occurs when magnetic fields are applied parallel to the a axis. A notable anisotropic field-direction dependence against the in-plane magnetic field was also observed in the transition temperature of the bulk superconductivity by the angle-resolved heat capacity measurements. We discuss the origin of this in-plane anisotropy in terms of the 3d electron spin configuration change induced by magnetic fields.
  • Fukuoka Shuhei, Sawada Masashi, Minamidate Takaaki, Matsunaga Noriaki, Nomura Kazushige, Ihara Yoshihiko, Kawamoto Atsushi, Doi Yoshihiro, Wakeshima Makoto, Hinatsu Yukio
    JOURNAL OF THE PHYSICAL SOCIETY OF JAPAN 87 (9) 0031-9015 2018/09/15 [Refereed][Not invited]
     
    We have investigated the magnetic properties of lambda-(BEDT-STF)(2) FeCl4 by Mossbauer measurement to reveal the origin of the paramagnetic-like behavior of the 3d spin system observed in lambda-(BEDT-STF)(2) FeCl(4 )using the donor substitution effect. We found that the temperature dependence of the hyperfine fields shows multistep development below T-N of 16K. From comparison of the Mossbauer results and a theoretical model, we demonstrated that the multistep development is caused by coupling between the 3d spins and the pi spins with strong spin correlation. We propose that the multistep development of the hyperfine fields is an intrinsic behavior induced by the pi-d interaction.
  • Masashi Sawada, Shuhei Fukuoka, Atsushi Kawamoto
    Physical Review B 97 (4) 2469-9969 2018/01/19 [Refereed][Not invited]
     
    We have performed H1 NMR and C13 NMR measurements to investigate the coupling between molecular dynamics and the electronic state of β′-(BEDT-TTF)2ICl2. From the H1 NMR measurements, we observed a frequency-dependent anomaly in the nuclear spin-lattice relaxation rate T1-11 that originates from the slowing down of the ethylene motion. In the C13 NMR measurements, we found an anomaly in the linewidth of the NMR spectra at around 150 K, which is attributed to a nuclear spin-spin relaxation rate (T213) anomaly. The magnitudes of the anomalies in the linewidth and in T2-113 are related to the hyperfine coupling constant. These results suggest that the ethylene motion modulates the molecular orbital of the BEDT-TTF molecules and gives rise to a difference in the orbital energy between the "staggered" and "eclipsed" conformations. We propose that significant coupling exists between the ethylene motion and the electronic state of the molecular dimer and that the ethylene dynamics can trigger the emergence of charge degrees of freedom inside the dimers and cause the dielectric anomaly in β′-(BEDT-TTF)2ICl2.
  • Yohei Saito, Shuhei Fukuoka, Takuya Kobayashi, Atsushi Kawamoto, Hatsumi Mori
    Journal of the Physical Society of Japan 87 (1) 1347-4073 2018 [Refereed][Not invited]
     
    The ground state of λ-(BEDT-TTF)2GaCl4, which has the same structure as the organic superconductor λ-(BETS)2-GaCl4, was investigated by magnetic susceptibility and 13C NMR measurements. The temperature dependence of the magnetic susceptibility revealed an antiferromagnetic (AF) correlation with J/kB ∼ 98 K. NMR spectrum splitting and the divergence of 1=T1 were observed at approximately 13 K, which is associated with the AF transition. We found that the AF structure is commensurate according to discrete NMR peak splitting, suggesting that the ground state of λ- (BEDT-TTF)2GaCl4 is an AF dimer-Mott insulating state. Our results suggest that the superconducting phase of λ-type salts would be located near the AF insulating phase.
  • Shuhei Fukuoka, Satoshi Yamashita, Yasuhiro Nakazawa, Takashi Yamamoto, Hideki Fujiwara
    JOURNAL OF THE PHYSICAL SOCIETY OF JAPAN 86 (1) 0031-9015 2017/01 [Refereed][Not invited]
     
    Angle-resolved heat capacity measurements of a pi-d interacting system of kappa-(BETS)(2)FeBr4 [BETS = bis(ethylene-dithio) tetraselenafulvalene] with in-plane magnetic fields are performed. We observed a thermal anomaly in association with the superconducting transition of the pi electrons in the pi-d compound for the first time. By pursuing a systematic change in the thermal anomaly, we found that the thermodynamic feature of the superconducting state shows large anisotropy against in-plane magnetic fields. When the field is applied parallel to the c-axis, the thermal anomaly remains up to 2.6 T with a distinct peak structure. On the other hand, it is suppressed in synchrony with the decrease of the antiferromagnetic transition temperature, when the field is applied parallel to the a-axis. Our thermodynamic results indicate that the effect of the pi-d interaction appears even when the pi electrons are itinerant and that the anisotropic field-direction dependence of the superconducting transition originates from the correlation between superconductivity and magnetism.
  • Shuhei Fukuoka, Satoshi Yamashita, Yasuhiro Nakazawa, Takashi Yamamoto, Hideki Fujiwara, Takashi Shirahata, Kazuko Takahashi
    PHYSICAL REVIEW B 93 (24) 2469-9950 2016/06 [Refereed][Not invited]
     
    The results are presented for systematic heat capacity measurements of pi-d interacting systems of kappa-(BETS)(2)FeBr4 and kappa-(BETS)(2)FeCl4 [BETS = bis(ethylenedithio)tetraselenafulvalene] performed under in-plane magnetic fields. We observed sharp thermal anomalies at 2.47 K for kappa-(BETS)(2)FeBr4 and at 0.47 K for kappa-(BETS)(2)FeCl4 at 0 T that are associated with antiferromagnetic transitions of the 3d electrons in the anion layers. From analyses of the magnetic heat capacity data, we indicate that the two compounds show unconventional thermodynamic behaviors inherent in the pi-d interacting layered system. In the case of kappa-(BETS)(2)FeBr4, a small hump structure was observed in the magnetic heat capacity below the transition temperature when a magnetic field was applied parallel to the a axis. In the case of kappa-(BETS)(2)FeCl4, a similar hump structure was observed at 0 T that remained in the data with magnetic fields applied parallel to the a axis. We demonstrate that the temperature dependencies of the magnetic heat capacities scale well by normalizing the temperatures with dominant one-dimensional direct interactions (J(dd)/k(B)) of each compound. The field dependencies of the transition temperatures and the hump structures are elucidated in one simple magnetic field vs temperature (H-T) phase diagram. These results indicate that the thermodynamic features of both kappa-type BETS salts are essentially equivalent, and the observed hump structures are derived from the one-dimensional J(dd) interaction characters, which are still influential for magnetic features even in the long-range magnetic ordered states.
  • Shusaku Imajo, Shuhei Fukuoka, Satoshi Yamashita, Yasuhiro Nakazawa
    JOURNAL OF THERMAL ANALYSIS AND CALORIMETRY 123 (3) 1871 - 1876 1388-6150 2016/03 [Refereed][Not invited]
     
    We report design and constructional details of a small-sized sample stage for relaxation calorimetry by utilizing commercially available ruthenium oxide chip sensors. The reduction in addenda heat capacity attained by fabrication of chip sensors made it possible to measure absolute values of the heat capacity of molecular compounds weighing in an order of 10(1-2) mu g with better temperature resolution. The result of calibration of the system by measuring 54.0 mu g metal indium which shows superconductive transition at 3.2 K is presented in the former part. Upon determining thermodynamic parameters of gamma and beta corresponding to the electronic heat capacity coefficient and the lattice heat capacity coefficient, respectively, we confirm that accurate measurements by such small amount of sample are possible. The magnitude of heat capacity jump is also discussed by comparing 0 T data and those under magnetic fields. Using this new calorimetry system, we then measured heat capacity of kappa-type organic superconductive salts of kappa-(BEDT-TTF)(2)Cu(NCS)(2) and kappa-(BEDT-TTF)(2)Cu[N(CN)(2)]Br down to 0.7 K and discuss the nodal feature of the superconductive gap in them in the latter part. Measurements down to He-3 temperature region with external magnetic fields will be possible for various organic conducting systems by a single piece of a crystal.
  • Satoshi Morishita, Ryo Yoshimoto, Shuhei Fukuoka, Satoshi Yamashita, Hiroki Akutsu, Yasuhiro Nakazawa
    JOURNAL OF THERMAL ANALYSIS AND CALORIMETRY 123 (3) 1877 - 1881 1388-6150 2016/03 [Refereed][Not invited]
     
    An experimental technique for controlling cooling rate at low-temperature region in the heat capacity measurements was developed, and results of the heat capacity measurements of organic superconductor (TMTSF)(2)ClO4 cooled down with various cooling rates are presented. We succeeded in obtaining heat capacity data for a single piece of a crystal down to 0.7 K to study electronic states attained with slow cooling rates to extremely high cooling rate up to 500 K min(-1). In the case of slow cooling at 0.17 K min(-1), we observed a distinct peak of the superconductive transition which is almost consistent with previous results. The fraction of superconductive part is reduced in faster cooling rates, and no distinct peak structure in C (p) T (-1) versus T (2) plot is observed around T (c) in the data of higher rate than 1.3 K min(-1). In the rapid cooling region of 200 K min(-1), clear reduction in electron density of states reflected in the change of the normal state gamma value in the electronic heat capacity was observed. The sample shows an insulating character with a charge gap in the case of rapid cooling of 500 K min(-1). We also discuss the feature of thermal anomaly related to the anion ordering around 24 K. A kind of glass-like freezing in residual conformational dynamics is suggested from the step-like decrease in C (p) T (-1) around 19 K.
  • Shuhei Fukuoka, Toshihiro Taen, Toshihito Osada
    JOURNAL OF THE PHYSICAL SOCIETY OF JAPAN 84 (12) 0031-9015 2015/12 [Refereed][Not invited]
     
    A single atomic layer of black phosphorus, phosphorene, was experimentally realized in 2014. It has a puckered honeycomb lattice structure and a semiconducting electronic structure. In the first part of this paper, we use a simple LCAO model, and qualitatively discuss the electronic structure of phosphorene systems under electric and magnetic fields, especially noting their midgap edge states. The next part is devoted to the review of the progress in research on phosphorene over the past one year since its realization in 2014. Phosphorene has been a typical material to study the semiconductor physics in atomic layers.
  • Yamashita Satoshi, Yoshimoto Ryo, Fukuoka Shuhei, Nakazawa Yasuhiro, Kato Reizo
    Quantum Matter 4 (4) 314 - 318 2015/08 [Refereed][Not invited]
  • Nakazawa Yasuhiro, Yoshimoto Ryo, Fukuoka Shuhei, Yamashita Satoshi
    Current Inorganic Chemistry 4 (2) 122 - 134 2014/04 [Refereed][Not invited]
  • Guoyang Guan, Shuhei Fukuoka, Satoshi Yamashita, Takashi Yamamoto, Hiromi Taniguchi, Yasuhiro Nakazawa
    JOURNAL OF THERMAL ANALYSIS AND CALORIMETRY 113 (3) 1197 - 1201 1388-6150 2013/09 [Refereed][Not invited]
     
    Thermodynamic investigation using the relaxation calorimetry technique and the microchip calorimetry technique is performed to clarify low-temperature behaviors of a radical cation salt consisting of a donor molecule of bispropylenedithiotetrathiafulvalene (BPDT-TTF) and a linear anion of . This compound has a layered structure similar to numerous BEDT-TTF compounds. The donor molecules form a dimerized arrangement in the layer. Temperature dependence of heat capacity obtained by the relaxation technique shows a broad hump structure around 20-25 K corresponding to the temperature where the magnetic susceptibility shows a drastic decrease due to the formation of the singlet spin state. The microchip calorimetry technique detected a step-like anomaly around 23 K in the temperature dependence of C (p) T (-1) of which entropy is evaluated as only few % of Rln2 corresponding to the full entropy of localized pi-electrons located on each dimer unit. The negligibly small T-linear term in the low-temperature heat capacity and absence of magnetic fields dependence below 3.2 K predict opening of rigid gap structure in the spin excitations, which is consistent with a spin-singlet formation due to the formation of spin-Peierls type ordering or charge ordering state.
  • Shuhei Fukuoka, Yuki Horie, Satoshi Yamashita, Yasuhiro Nakazawa
    JOURNAL OF THERMAL ANALYSIS AND CALORIMETRY 113 (3) 1303 - 1308 1388-6150 2013/09 [Refereed][Not invited]
     
    We report on construction of a new low temperature heat capacity measurement system. This system was designed for performing thermodynamic investigation by thermal relaxation technique for small amount of samples at extremely low temperature region between 70 mK and 10 K. Two different calorimetry cells for this system were designed. One is a usual-type calorimetry cell consisting of tiny chip-type thermometer and strain gauge heater. The size of the sample stage has been reduced for measuring small samples. The other is designed for performing heat capacity measurements under magnetic fields of which magnitude and direction are accurately controlled. The calorimetry cells with heat capacity measurement unit can be mounted on a handy top-loading type dilution refrigerator of which outer diameter including the adiabatic space is 27 mm. We discuss basic performance and specification of the constructed cells and low temperature heat capacity data of an organic charge transfer salt obtained by this system.
  • Shuhei Fukuoka, Satoshi Yamashita, Takashi Yamamoto, Yasuhiro Nakazawa, Akiko Kobayashi, Hayao Kobayashi
    PHYSICA STATUS SOLIDI C: CURRENT TOPICS IN SOLID STATE PHYSICS, VOL 9, NO 5 9 (5) 1174 - 1176 1862-6351 2012 [Refereed][Not invited]
     
    Low temperature thermodynamic properties of kappa-(BETS)(2)FeBr4 are studied by using a tiny single crystal sample with 1 mu g adhered on a micro-chip calorimeter TCG3880. A large thermal anomaly associated with the antiferromagnetic transition of localized d electrons of Fe3+ was observed around 2.2 K. With the increase of magnetic fields applied parallel to the ac plane, the transition temperature shifts to lower temperature side accompanied by an anisotropic character. We found that the reduction of the transition temperature is largest, when magnetic field was applied parallel to a-axis. This observation is consistent with the previous result obtained by transport measurements which claimed that the spin easy axis is a-axis. The results demonstrate that the microchip calorimeter is effective for conducting thermodynamic measurements of molecular compounds. (C) 2012 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim
  • Shuhei Fukuoka, Satoshi Yamashita, Takashi Yamamoto, Yasuhiro Nakazawa, Hiroyuki Higashikawa, Katsuya Inoue
    PHYSICA B-CONDENSED MATTER 405 (11) S19 - S22 0921-4526 2010/06 [Refereed][Not invited]
     
    Thermodynamic nature of the magnetic transitions of a cyano-bridged W(V)-Cu(II) compound of [W(CN)(8)](4)[Cu(pn)H(2)O](4)[Cu(pn)](2) 2 5H(2)O is studied by low-temperature heat capacity measurements Distinct thermal anomalies were observed in the temperature dependence of the heat capacity at 7 8 K for chiral compound (S-enantiomer) and 7 2 K for racemic compound They are associated with the antiferromagnetic transitions reported by the previous magnetization measurements In the case of S-enantiomer a shoulder structure of C(p)/T has been observed just below the main peak of the antiferromagnetic transition temperature at 0 T The shoulder grows to a sharp anomaly with a first order character by applying magnetic field of about 1 T in the b-axis direction On the other hand just a broadening of the peak was observed for racemic compound which means that the complicated behavior under magnetic field is derived from the crystallographic chirality We also studied the behavior of S-enantiomer with magnetic fields applied parallel to the c-axis and found that the first order transition is not induced Appearance of the complicated peak structure including the first order character specific in the b-direction is ascribed to peculiar magnetic ordering derived from crystallographic chirality related to the Dzyaloshinskii-Moriya (DM) interaction (C) 2010 Elsevier B V All rights reserved
  • N. Tokoro, S. Fukuoka, O. Kubota, Y. Nakazawa
    PHYSICA B-CONDENSED MATTER 405 (11) S273 - S276 0921-4526 2010/06 [Refereed][Not invited]
     
    Thermodynamic measurements using single crystals of K-type organic superconductors have been performed under pressure and with magnetic field We have adopted the ac temperature modulation technique for detecting relative variation of heat capacity as a function of temperature since usual adiabatic condition inevitable for getting absolute values of heat capacities is difficult to attain under pressure We used small ruthenium oxide chips as a heater and a thermometer and adhered them on the both side of single crystal and put them inside the Cu-Be cramp type pressure cell The broad hump structure around 9K which may be attributable to the thermal anomaly related to the superconductive transition was observed in kappa-(BEDT-TTF)(2)Cu(NCS)(2) However the worse sensitivity of ruthenium oxide sensor (100 Omega at room temperature) in this temperature region make it difficult to separate the peak from the large background contribution In the case of kappa-[(BEDT-TTF)(0) (9)(BEDSe-TTF)(0) (1)](2)Cu[N(CN)(2)]Br we have observed a sharp peak in the heat capacity at ambient pressure and its downward shift at 3 kbar The application of magnetic fields in the parallel direction to the superconductive layers was found to suppress the peak structure The behaviors are consistent with the typical nature of 2D superconductors and the electronic phase diagram of K-type organic salts (C) 2010 Elsevier B V All rights reserved
  • O. Kubota, S. Fukuoka, Y. Nakazawa, K. Nakata, M. Yamashita, H. Miyasaka
    JOURNAL OF PHYSICS-CONDENSED MATTER 22 (2) 0953-8984 2010/01 [Refereed][Not invited]
     
    Low temperature heat capacity measurements under pressure were performed for tiny single crystals of two-dimensional coordination-networked compounds consisting of [Mn-4] single-molecule magnets (SMMs) by the ac temperature modulation technique. Systematic variations of the peak temperature and the peak width of the thermal anomalies produced by pressure were clearly detected using two ruthenium oxide resistance chips in the Cu-Be clamp-type cell. A linear increase of the Neel temperature for an ordering set of large SMM spins with S = 9 was observed in [Mn-4(hmp)(6){N(CN)(2)}(2)](ClO4)(2), while a non-monotonic variation of the peak temperatures and peak shapes was observed in [Mn-4(hmp)(4)Br-2(OMe)(2) {N(CN)(2)}(2)](ClO4)(2)center dot 2THF center dot 0.5H(2)O (hmp(-) = 2-hydroxymethylpyridinate; N(CN)(2) = dicyanamide as the linker among SMMs). We also report on thermodynamic behavior produced by changing external pressures and magnetic fields. The results are discussed in terms of the tilting angle of Ising axes in the two-dimensional plane.

MISC

Presentations

Association Memberships

  • JAPAN SOCIETY FOR MOLECULAR SCIENCE   THE PHYSICAL SOCIETY OF JAPAN   日本熱測定学会   

Research Projects

  • 日本学術振興会:科学研究費助成事業
    Date (from‐to) : 2024/04 -2026/03 
    Author : 福岡 脩平
  • 日本学術振興会:科学研究費助成事業 基盤研究(C)
    Date (from‐to) : 2022/04 -2025/03 
    Author : 福岡 脩平
  • 分子設計の自由度を活用したMott境界近傍に位置するλ型有機導体の電子状態の解明と物性探索
    日揮・実吉奨学会研究助成金:2022年度研究助成
    Date (from‐to) : 2022/09 -2024/08
  • 超分子チャンネル構造内での分子回転型水分子輸送機構の解明と高機能化
    クリタ水・環境科学振興財団:2022年度助成
    Date (from‐to) : 2022/10 -2023/09
  • Development of advanced measurement system with a portable high-field pulsed magnet
    日本学術振興会:科学研究費補助金基盤研究B
    Date (from‐to) : 2019/04 -2023/03 
    Author : 井原 慶彦
  • 非対称なダイマー構造が誘起する新奇な電子状態の解明と機能開拓
    日本学術振興会:科学研究費補助金若手研究
    Date (from‐to) : 2019/04 -2022/03 
    Author : 福岡 脩平
  • 精密角度分解熱容量測定装置の開発と有機超伝導体及び量子磁性体への応用
    住友財団:基礎科学研究助成
    Date (from‐to) : 2019/11 -2020/11 
    Author : 福岡 脩平
  • dimer構造を持つ分子性固体が示す新奇誘電応答現象の探索と解明
    泉科学技術振興財団:2019年度研究助成金
    Date (from‐to) : 2019/10 -2020/09 
    Author : 福岡 脩平
  • Magnetic and thermodynamic properties of molecular p-d system l-(BEDT-STF)2FeCl4
    村田学術振興財団:研究者海外派遣援助
    Date (from‐to) : 2019/09 -2019/09 
    Author : 福岡 脩平
  • 多角的磁場制御下熱測定による分子性化合物の研究
    日本学術振興会:特別研究員奨励費(DC1)
    Date (from‐to) : 2011/04 -2014/03 
    Author : 福岡 脩平


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