摘要:
The invention relates to a micro electromechanical device (1′) for tilting a body (2) in two degrees of freedom comprising a carrier element (3) and a membrane (4), the body (2) being connected via the membrane (4) to the carrier element (3), wherein the body (2) and the carrier element (3) each comprise at least one electrode (5,6). The body (2) is tilted by means of electrostatic forces (7) between the at least one electrode (5) of the body (2) and the at least one electrode (6) of the carrier element (3) by an application of a voltage (V1,V2) to said electrodes (5,6) from a voltage source.
摘要翻译:本发明涉及一种用于在包括载体元件(3)和膜(4)的两个自由度上倾斜主体(2)的微机电装置(1'),所述主体(2)通过膜(4)连接 )到所述载体元件(3),其中所述主体(2)和所述载体元件(3)各自包括至少一个电极(5,6)。 主体(2)通过施加主体(2)的至少一个电极(5)与载体元件(3)的至少一个电极(6)之间的静电力(7)倾斜, 从电压源到所述电极(5,6)的电压(V SUB 1,V 2)。
摘要:
The invention describes a particle-optical apparatus arranged to focus a beam (1) of electrically charged particles with the aid of two particle-optical lens systems (10, 20). The lens action is achieved by magnetic fields, which fields are generated by permanent-magnetic materials (13, 23). In contrast to magnetic lenses equipped with a coil, it is not easy in the case of lenses equipped with permanent-magnetic material to alter the focusing magnetic field with the aim of altering the optical power. In an apparatus according to the invention, the optical power of the lens systems is altered by altering the energy with which the beam (1) traverses the lens systems (10, 20). This can easily happen by altering the voltage of electrical power supplies (14, 24).
摘要:
The invention refers to an electrically actuated, needle-free injection device. The main field of application is drug delivery. The device is based on a piezoelectric actuator (11). The device enables controlled, continuous, tuneable drug delivery. The device enables painless injection, personalized and programmable dosage profiles. The device is designed, both to pierce the epidermis for trans-epidermal drug delivery and to deliver controlled amounts of fluid (transdermal, electronic pill and implantable drug delivery). This type of device enables personalized drug delivery and is an enabling component for closed-loop drug delivery systems.
摘要:
The invention relates to an apparatus for evacuating samples. A sample 4 is hereby placed in a cavity 3 of a sheet 1 with a smooth surface 2. A sole plate 5 Is placed upon this smooth surface 2, whereby the smooth surface 2 and the sole plate 5 placed thereupon together form a vacuum seal. The sole plate 5, upon which a vacuum column 6 is mounted, can be slid across the smooth surface 2. By sliding the sole plate 5 over the cavity 4, the cavity 4 is evacuated in several steps.In an embodiment of the invention, the vacuum column 6 takes the form of an ESEM (Environmental Scanning Electron Microscope). In this way, it is possible to inspect the evacuated sample 4 with the ESEM.
摘要:
A cluster tool includes multiple tools for microscopic processing of a sample positioned around a rotatable base. A sample holder on the base rotates the sample between the working areas of the tools. A slidable vacuum seal maintains a vacuum in a sample chamber for tools that require a vacuum.
摘要:
The invention describes a particle-optical apparatus arranged to focus a beam (1) of electrically charged particles with the aid of two particle-optical lens systems (10, 20). The lens action is achieved by magnetic fields, which fields are generated by permanent-magnetic materials (13, 23). In contrast to magnetic lenses equipped with a coil, it is not easy in the case of lenses equipped with permanent-magnetic material to alter the focusing magnetic field with the aim of altering the optical power. In an apparatus according to the invention, the optical power of the lens systems is altered by altering the energy with which the beam (1) traverses the lens systems (10, 20). This can easily happen by altering the voltage of electrical power supplies (14, 24).
摘要:
A method is described for generating EUV radiation, comprising the steps of: generating a flow (35) of liquid droplets (39); injecting the flow into a source space (33) connected to a vacuum pump (34), and successively irradiating individual droplets (39) with an intense, pulsed, laser beam (41) focused on a droplet, thus creating a plasma (47) which emits EUV radiation. In order to prevent that liquid vapor destroys the vacuum in the source space (33) and to guarantee a continuous flux of EUV radiation, the flow (35) is guided through additional vacuum spaces (53, 56, 63) in series with the source space. Also described are an EUV radiation source unit for realizing the method and the application of the method in the manufacture of devices, like IC devices, and in a lithographic projection apparatus.