摘要:
The present invention provides a process for producing an optically active allene represented by formula (1): wherein R2 and R3 are different and each represents a hydrogen atom, an optionally substituted C1-20 alkyl group or an optionally substituted C6-20 aryl group, and R4 represents an acyl group, which comprises reacting an allene derivative represented by formula (2): wherein R1 represents a hydrogen atom or an optionally substituted acyl group and R2 and R3 have the same meaning as defined above, with an acylating agent having an acyl group represented by R4 when both R1s are each a hydrogen atom or with water when both R1s are each an acyl group represented by R4, in the presence of an enzyme catalyst. According to this production process, an optically active allene can be produced efficiently and enantioselectively from an allene derivative having a symmetrical structure.
摘要:
The present invention provides a process for producing an optically active allene represented by formula (1): wherein R2 and R3 are different and each represents a hydrogen atom, an optionally substituted C1-20 alkyl group or an optionally substituted C6-20 aryl group, and R4 represents an acyl group, which comprises reacting an allene derivative represented by formula (2): wherein R1 represents a hydrogen atom or an optionally substituted acyl group and R2 and R3 have the same meaning as defined above, with an acylating agent having an acyl group represented by R4 when both R1s are each a hydrogen atom or with water when both R1s are each an acyl group represented by R4, in the presence of an enzyme catalyst. According to this production process, an optically active allene can be produced efficiently and enantioselectively from an allene derivative having a symmetrical structure.
摘要:
A processing circuit, which carries out coincidence counting, acquires calibration data so that time delays of γ-ray detection signals from radiation detectors coincide with one another. A technique for acquiring calibration data faster and easily is provided to attain high time precision and respond to multi-channeling of detectors. A signal from a test signal generator is sent to signal processing apparatuses and coincidence count events are generated as a test. The events generated are processed by a delay time control apparatus and a variable delay circuit is controlled to improve the accuracy of coincidence counting.
摘要:
A processing circuit, which carries out coincidence counting, acquires calibration data so that time delays of γ-ray detection signals from radiation detectors coincide with one another. A technique for acquiring calibration data faster and easily is provided to attain high time precision and respond to multi-channeling of detectors. A signal from a test signal generator is sent to signal processing apparatuses and coincidence count events are generated as a test. The events generated are processed by a delay time control apparatus and a variable delay circuit is controlled to improve the accuracy of coincidence counting.
摘要:
A processing circuit, which carries out coincidence counting, acquires calibration data so that time delays of γ-ray detection signals from radiation detectors coincide with one another. A technique for acquiring calibration data faster and easily is provided to attain high time precision and respond to multi-channeling of detectors. A signal from a test signal generator is sent to signal processing apparatuses and coincidence count events are generated as a test. The events generated are processed by a delay time control apparatus and a variable delay circuit is controlled to improve the accuracy of coincidence counting.
摘要:
A processing circuit, which carries out coincidence counting, acquires calibration data so that time delays of γ-ray detection signals from radiation detectors coincide with one another. A technique for acquiring calibration data faster and easily is provided to attain high time precision and respond to multi-channeling of detectors. A signal from a test signal generator is sent to signal processing apparatuses and coincidence count events are generated as a test. The events generated are processed by a delay time control apparatus and a variable delay circuit is controlled to improve the accuracy of coincidence counting.
摘要:
A control circuit for controlling a power supply including a first switch and a second switch coupled in series between a first potential and a second potential. The control circuit includes a detection circuit that detects a magnitude relation of a voltage value at a node between the first and second switches and a reference value during a period in which the first switch and the second switch are inactivated. The detection circuit generates a control signal corresponding to the magnitude relation. A regulation circuit regulates a switching timing of the second switch in response to the control signal to decrease a difference between the voltage value at the node and the reference value.
摘要:
An input device includes a body unit, a first touch type position detection unit which detects a first touch position of a human body on a first detection surface of the body unit, a second touch type position detection unit which detects a second touch position of the human body on a second detection surface of the body unit, the second detection surface being on an opposite side of the body unit as the first detection surface, and a detection area restriction unit which restricts an area, which can be detected by the second touch type position detection unit, on the second detection surface according to information of the first touch position and information determined in advance. The information determined in advance is data indicating a relation between the first touch position on the first detection surface and the restricted area on the second detection surface.
摘要:
A carbon nanotube forming method including providing a target substrate to be processed, a catalytic metal layer being formed on a surface of the target substrate; producing catalytic fine metal particles whose surfaces are oxidized by action of an oxygen plasma on the catalytic metal layer at a temperature T1; and activating the oxidized surfaces of the catalytic fine metal particles by reducing the oxidized surfaces of the catalytic fine metal particles by action of a hydrogen plasma on the catalytic fine metal particles at a temperature T2 higher than the temperature T1. The method further includes growing a carbon nanotube on the activated catalytic fine metal particles by thermal CVD at a temperature T3.
摘要:
A control circuit for controlling a power supply including a first switch and a second switch coupled in series between a first potential and a second potential. The control circuit includes a detection circuit that detects a magnitude relation of a voltage value at a node between the first and second switches and a reference value during a period in which the first switch and the second switch are inactivated. The detection circuit generates a control signal corresponding to the magnitude relation. A regulation circuit regulates a switching timing of the second switch in response to the control signal to decrease a difference between the voltage value at the node and the reference value.