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Light flavon signals at electron-photon colliders
Muramatsu, Yu,Nomura, Takaaki,Shimizu, Yusuke,Yokoya, Hiroshi American Physical Society 2018 Physical Review D Vol.97 No.1
<P>Flavor symmetries are useful to realize fermion flavor structures in the standard model (SM). In particular, the discrete A(4) symmetry is used to realize lepton flavor structures, and some scalars-called flavons-are introduced to break this symmetry. In many models, flavons are assumed to be much heavier than the electroweak scale. However, our previous work showed that a flavon mass around 100 GeV is allowed by experimental constraints in the A(4) symmetric model with a residual Z(3) symmetry. In this paper, we discuss collider searches for such a light flavon phi(T). We find that electron-photon collisions at the International Linear Collider have advantages for searching for these signals. In electron-photon collisions, flavons are produced as e(-)gamma -> l(phi T)(-) and decay into two charged leptons. Then, we analyze signals of the flavor-conserving final state tau(+)tau(-)e(-) and the flavor-violating final states tau(+)mu(-)mu(-) and mu(+)tau(-)tau(-) by carrying out numerical simulations. For the former final state, SM background can be strongly suppressed by imposing cuts on the invariant masses of final-state leptons. For the latter final states, SM background is extremely small, because in the SM there are no such flavor-violating final states. We then find that sufficient discovery significance can be obtained, even if flavons are heavier than the lower limits from flavor physics.</P>
The principles and applications of nano-diagnosis system for a nano-biosensor
김종민,Karube Isao,장상목,Hiroshi Muramatsu 한국화학공학회 2011 Korean Journal of Chemical Engineering Vol.28 No.4
In this review, the basic principles and research trends of biosensors are briefly described and a nano-sensing system applying QCM (quartz crystal micro-balance), nano-diagnosis methods by AFM (atomic force microscopy)and SNOAM (scanning near-field/atomic force microscopy) is discussed intensively. The principle, construction, and applications of piezoelectric crystal sensors as a universal sensor are reviewed. This review is focused mainly on liquid phase applications, such as immune-sensors, gelation detecting sensors, and cultured cell monitoring sensors. The principle of nano-diagnosis based on the AFM or SNOAM techniques is described in detail. Finally, the binding affinity of peptide probes to proteins using AFM and the visualizing of a hybridized PNA probe on a DNA molecule using SNOAM are evaluated and discussed.
Investigation of the Extracellular Matrix Effect for the QCM/CCD Cell Activity Monitoring System
Kang, Hyen-Wook,Otani, Naoya,Hiroshi, Muramatsu,Chang, Sang-Mok,Kim, Jong Min American Scientific Publishers 2018 Journal of Nanoscience and Nanotechnology Vol.18 No.8
<P>A real-time quartz crystal microbalance (QCM) cell activity monitoring system coupled with micro CCD cameras was developed to investigate the cultured cell activity, which could measure the viscoelastic characteristics of the cell with the QCM and observe the cell morphology changes with CCD camera simultaneously. Both the viscoelastic characteristics and the shape of the cultured cell are important factors to estimate the cell activity and the cell adhesion. The extracellular matrix (ECM) on the surface of the QCM is essential to culture the cell stably in the QCM monitoring system. To find the ECM optimization condition, the adhesive strength of cultured cells on the ECM modified glass surface was measured by using rotating water stream and CCD camera. After culturing HepG2 cells for 24 hours on the ECM modified glass plates, the glass plates were dipped in the PBS solution and rotated with 1,000, 1,300, and 1,500 rpm for 30 seconds. The adhesiveness of ECMs was investigated by calculating the remained cells after rotating. Four types of ECM, such as amino group, carboxyl group, collagen monomer, and collagen polymer, were used and tested. The current paper improves the sensing system of previous report so that measurements of four ECMs can be simultaneously conducted under the same conditions in order to enhance reliability. A collagen polymer exposed ECM was the most stable on an adhesiveness point of view, but not suitable for the QCM cell activity monitoring due to the decrease of the QCM sensitivity. The sensitivity of the QCM cell activity monitoring system using collagen monomer as ECM is about 2.6 times better than that using collagen polymer. A collagen monomer exposed ECM was more stable than amino group and carboxyl group exposed ECMs based on an adhesiveness point of view. Therefore, a collagen monomer exposed ECM was the most stable and suitable for the QCM cell activity monitoring system among the four ECMs. The changes of the resonance frequency and the resonance resistance of the ECM film with the cultured cells were investigated and compared the results of CCD camera images. From these results, we showed the QCM cell activity monitoring system coupled with the micro CCD camera could be applied to the evaluation of the cell activities.</P>
Kang, Hyen-Wook,Yamamoto, Yuji,Muramatsu, Hiroshi,Chang, Sang-Mok,Kim, Jong Min American Scientific Publishers 2013 Journal of Nanoscience and Nanotechnology Vol.13 No.3
<P>In order to observe the force interaction in large areas, a novel force detection probe was fabricated by two-photon absorbed photopolymerization (TPAP) techniques. The probe was based on a commercial cantilever, and a docking structure for adopting a microsphere immobilized with actin antibody was fabricated by the TPAP techniques. The commercial AFM tip was also modified with the antibody for comparison. Using force curve measurement, the interaction force was compared between the modified probes and the sample surface which was immobilized with actin using a spotting system. The adhesive force of 1.3 nN was measured applying the commercial cantilever. The value was comparable to the measured interaction force of 130 nN applying the microsphere modified cantilever. The measured adhesive force of the novel probe was 100-fold larger than that obtained by the sharp AFM cantilever tip. This strong adhesive force of the microsphere modified cantilever to actin is explainable by the large contact area between the microsphere and the sample surface.</P>