Macroscopic Many-Qubit Interactions in Superconducting Flux Qubits

Superconducting flux qubits are considered to investigate macroscopic many-qubit interactions. Many-qubit states based on current states can be manipulated through the current-phase relation in each superconducting loop. For flux qubit systems comprised of $N$ qubit loops, a general expression of low energy Hamiltonian is presented in terms of low energy levels of qubits and macroscopic quantum tunnelings between the many-qubit states. Many-qubit interactions classified by {\em Ising type- or tunnel-}exchange interactions can be observable experimentally. Flux qubit systems can provide various artificial-spin systems to study many-body systems that cannot be found naturally.Comment: 5 pages, 1 figur

Macroscopic Greenberger-Horne-Zeilinger and W states in flux qubits

We investigate two types of genuine three-qubit entanglement, known as the Greenberger-Horne-Zeilinger (GHZ) and W states, in a macroscopic quantum system. Superconducting flux qubits are theoretically considered in order to generate such states. A phase coupling is proposed to offer enough strength of interactions between qubits. While an excited state can be the W state, the GHZ state is formed at the ground state of the three flux qubits. The GHZ and W states are shown to be robust against external flux fluctuations for feasible experimental realizations

College Students\u27 Motivations for Using Podcasts

Despite potential benefits of podcasts for college education, little research has examined students’ psychological drives for using podcasts. To explore the relationship between the use of podcasts and college students’ appreciation of them, this study investigated students’ motivations, attitudes and behaviors with regard to podcasts use including their learning environment. Based on a survey with 636 college students, this study found that six dimensions of motivations were prominent for podcasts use: (1) voyeurism/social interaction/companionship, (2) entertainment/relaxation/arousal, (3) education/information, (4) pastime/escape, (5) habit, and (6) convenience. In particular, motivations catering to relationship consolidation, excitement and educational achievement better explained the actual use of podcasts as well as students’ appreciation than other motivations identified. In addition, students’ attachment to the medium is a strong predictor of their podcasts use and gratification. Students also used podcasts to satisfy their fashion motivation. Theoretical and practical implications of using podcasts for digital literacy in college education were discussed

Keeping Customers Shopping in the Store: Interrelationships among Store Attributes, Shopping Enjoyment, Place Attachment, and Store Loyalty

With consumers shifting to Internet and mobile shopping, the demand for brick and mortar store shopping has decreased and in response, several major U.S. retail chains have downsized the number of their physical retail operations (Farfan, 2013). Yet, retailers have not completely said good bye to stores. Indeed there may be several key store attributes that retailers’ can focus on and continue to develop if they are interested in keeping customers shopping and buying in brick and mortar stores

Utilizing University-based Enterprise to Foster Industry-Academia Collaboration in the Field of Product Development

University-based enterprise (UBE) system has been adopted and implemented in diverse fields focusing on practice-based learning. The aim of the presentation is to introduce the UBE system integrated into product development course and active collaborations with regional government and other companies to enhance students’ practical abilities. Presented are the UBE system and two cases utilizing the system for product development education

Genome-wide functional analysis using the barcode sequence alignment and statistical analysis (Barcas) tool

Pipelines of pooled library screen analysis. Table S1. Public library sets of shRNA, sgRNA and deletion mutant strains. Figure S2. A list of wrong barcodes from 1,230 shRNAs of TRC library. Table S2. Sequences of 25 barcodes with abnormally increased mapping counts by imperfect matching. Table S3. A list of the used options for each tool. Table S4. Comparison of mapping results and speed by three tools. (PDF 7691 kb

Bax-dependent apoptosis induced by ceramide in HL-60 cells

AbstractCeramide is an important lipid messenger involved in mediating a variety of cell functions including apoptosis. In this study, we show that antisense bax inhibits cytochrome c release, poly(ADP-ribose)polymerase cleavage and cell death induced by ceramide in HL-60 cells. In addition, ceramide induces translocation of Bax to mitochondria. The addition of the broad spectrum caspase inhibitor zVAD-fmk prevented ceramide-induced apoptotic cell death but did not inhibit translocation of Bax and mitochondrial cytochrome c release. Furthermore, ceramide inhibits the expression of the antiapoptotic protein Bcl-xL with an increase in the ratio of Bax to Bcl-xL. These data provide direct evidence that Bax plays an important role in regulating ceramide-induced apoptosis

Implementation of three-qubit Toffoli gate in a single step

Single-step implementations of multi-qubit gates are generally believed to provide a simpler design, a faster operation, and a lower decoherence. For coupled three qubits interacting with a photon field, a realizable scheme for a single-step Toffoli gate is investigated. We find that the three qubit system can be described by four effective modified Jaynes-Cummings models in the states of two control qubits. Within the rotating wave approximation, the modified Jaynes-Cummings models are shown to be reduced to the conventional Jaynes-Cummings models with renormalized couplings between qubits and photon fields. A single-step Toffoli gate is shown to be realizable with tuning the four characteristic oscillation periods that satisfy a commensurate condition. Possible values of system parameters are estimated for single-step Toffli gate. From numerical calculation, further, our single-step Toffoli gate operation errors are discussed due to imperfections in system parameters, which shows that a Toffoli gate with high fidelity can be obtained by adjusting pairs of the photon-qubit and the qubit-qubit coupling strengthes. In addition, a decoherence effect on the Toffoli gate operation is discussed due to a thermal reservoir.Comment: 8 pages, 4 figures, to appear in PR