公开(公告)号：US20230312493A1

公开(公告)日：2023-10-05

申请号：US18004099

申请日：2021-07-09

Applicant: HELMHOLTZ-ZENTRUM DRESDEN-ROSSENDORF E.V.

Inventor： Rares-Petru MOLDOVAN ,  Rodrigo TEODORO ,  Magali TOUSSAINT ,  Daniel GÜNDEL ,  Winnie DEUTHER-CONRAD ,  Peter BRUST

IPC: C07D277/18 ,  A61K51/04

CPC classification number: C07D277/18 ,  A61K51/0453

Abstract: Compounds of general formula I





X1 is a CD2 group or a CT2 group; X2 is oxygen or a group (CZ1Z2)n, wherein Z1 and Z2 on each occurrence independently each are hydrogen, deuterium, or tritium and n is an integer from 1 to 12; X3 is a CD2 group or a CT2 group; and R is selected from the group consisting of hydroxy, -NO2, halogen, a diazonium ion, a diazonium salt, a trialkylammonium ion, a trialkylammonium salt, a dialkoxyarene, a sulphoxide, a boronic acid, a boronic acid ester, an organotin compound, an iodonium ion, an iodonium salt, an iodonium ylide, and a sulphonate.

公开(公告)号：US20230282655A1

公开(公告)日：2023-09-07

申请号：US18019602

申请日：2021-07-21

Applicant: Helmholtz-Zentrum Dresden-Rossendorf e.V.

Inventor： David Weinberger ,  Toni Kögler ,  Guntram Pausch

IPC: H01L27/146 ,  G01T1/20 ,  G01T1/29

CPC classification number: H01L27/14605 ,  G01T1/20182 ,  G01T1/2985 ,  H01L27/14663

Abstract: A photodetector (90) having an exposure surface (91) has a first photodiode array (1) having a first light entry surface (11) and a second photodiode array (2) having a second light entry surface (21). The first photodiode array (1) has an avalanche photodiode (10). The second photodiode array (2) has a non-amplifying photodiode (10). The first light entry surface (11) and the second light entry surface (21) form sub-surfaces of the exposure surface (91).

公开(公告)号：US20210305961A1

公开(公告)日：2021-09-30

申请号：US17058363

申请日：2019-05-07

Applicant: HELMHOLTZ-ZENTRUM DRESDEN - ROSSENDORF E.V.

Inventor： Heidemarie SCHMIDT ,  Nan DU ,  Agnieszka BOGUSZ ,  Stephan KRÜGER ,  Ilona SKORUPA

IPC: H03H7/01

Abstract: A method for reconfiguration of a vortex density in a rare earth manganate, to a non-volatile impedance switch having reconfigurable impedance, and to the use thereof as micro-inductance is disclosed. A unique voltage-time profile is applied between a first and a second electrically conductive contact attached to the rare earth manganate, such that the rare earth manganate passes through an ordering temperature in a region of an electric field forming between the two electrically conductive contacts during a cooling process during and after application of the voltage pulse or the voltage ramp, and the vortex density is thus influenced and adjusted locally in the region of the electric field forming between the two electrically conductive contacts.

公开(公告)号：US20170025552A1

公开(公告)日：2017-01-26

申请号：US15124075

申请日：2015-01-26

Applicant: HELMHOLTZ-ZENTRUM DRESDEN-ROSSENDORF E.V.

Inventor： HEIDEMARIE SCHMIDT ,  ILONA SKORUPA ,  SLAWOMIR PRUCNAL ,  DANILO BUERGER ,  AGNIESZKA BOGUSZ ,  LAVEEN SELVARAJ

IPC: H01L29/93 ,  H01L31/09 ,  H01L31/10 ,  H01L27/115

CPC classification number: H01L29/93 ,  H01G7/025 ,  H01L27/101 ,  H01L27/1021 ,  H01L27/11507 ,  H01L28/56 ,  H01L29/8616 ,  H01L31/09 ,  H01L31/10

Abstract: A capacitance diode or variable capacitance diode includes first and second electrodes and a layer configuration disposed in contact-making fashion between the two electrodes. The layer configuration has, one after the other in a direction from the first electrode towards the second electrode, a layer formed of a ferroelectric material and an electrically insulating layer formed of a dielectric material having electrically charged defects. A method for producing a capacitance diode or a variable capacitance diode, a storage device and a detector including a capacitance diode or a variable capacitance diode are also provided.

Abstract translation: 电容二极管或可变电容二极管包括第一和第二电极以及在两个电极之间以接触方式设置的层结构。 该层结构在从第一电极朝向第二电极的方向上一个接一个地形成由铁电材料形成的层和由具有带电缺陷的电介质材料形成的电绝缘层。 还提供了一种用于制造电容二极管或可变电容二极管的方法，存储装置和包括电容二极管或可变电容二极管的检测器。

公开(公告)号：US20160170243A1

公开(公告)日：2016-06-16

申请号：US14949038

申请日：2015-11-23

Applicant: Bergmann Messgeraete Entwicklung KG ,  Helmholtz-Zentrum Dresden-Rossendorf e.V.

Inventor： Thorald Horst Bergmann ,  Mathias Siebold ,  Markus Löser

IPC: G02F1/03 ,  H01S3/11

CPC classification number: G02F1/0327 ,  G02F1/03 ,  G02F1/0305 ,  H01S3/107 ,  H01S3/1103 ,  H03K3/00 ,  H03K5/02 ,  H03K5/04

Abstract: The driver circuit contains a first line, which is to be connected to a first terminal of the Pockels cell (18; CP), and a second line, which is to be connected to a second terminal of the Pockels cell (18; CP), wherein the first line and/or the second line have/has an inductance (14, 15; 24, 25).

Abstract translation: 驱动器电路包括要连接到普克尔单元（18; CP）的第一端子的第一线路和要连接到普克尔单元（18; CP）的第二端子的第二线路， ，其中所述第一线路和/或所述第二线路具有/具有电感（14,15; 24,25）。

公开(公告)号：US08944142B2

公开(公告)日：2015-02-03

申请号：US14094350

申请日：2013-12-02

Applicant: Helmholtz-Zentrum Dresden-Rossendorf E.V. ,  Technische Universitaet Dresden

Inventor： Petr A. Nikrityuk ,  Sven Eckert ,  Dirk Raebiger ,  Bernd Willers ,  Kerstin Eckert ,  Roger Grundmann ,  Gunter Gerbeth

IPC: B22D27/02 ,  B22D27/04 ,  B01F13/08

CPC classification number: B22D27/02 ,  B01F13/0809 ,  B22D27/045 ,  C21C1/06 ,  F27D27/00 ,  Y10T137/0391 ,  Y10T137/206

Abstract: The invention relates to a method and to a device for the electromagnetic stirring of electrically conductive fluids in the liquid state and/or in the state of onsetting solidification of the fluid, using a rotating magnetic field that is produced in the horizontal plane of a Lorentz force. The aim is to achieve an intensive three-dimensional flow on the inside of the fluid for mixing in the liquid state up to the direct vicinity of solidifying fronts, and to simultaneously ensure an undisturbed, free surface of the fluid. The solution is to change the direction of rotation of the magnetic field rotating in the horizontal plane at regular time intervals in the form of a period duration, wherein the frequency of the directional change of movement of the magnetic field vector is adjusted such that in the state of mixing the liquid fluid a period duration is adjusted between two directional changes of the magnetic field during a time interval as a function of the adjustment time with the condition (I) 0.5·ti.a

Abstract translation: 本发明涉及一种用于电磁搅拌处于液体状态的导电流体和/或处于开始凝固状态的装置，该方法和装置使用在洛伦兹的水平面中产生的旋转磁场 力。 目的是在流体内部实现强烈的三维流动，以液态混合直到固化前沿直接附近，同时确保流体的不受干扰的自由表面。 该解决方案是以周期持续时间的形式以规则的时间间隔改变在水平面中旋转的磁场的旋转方向，其中调整磁场矢量的方向移动变化的频率，使得在 混合液体的状态在时间间隔内在磁场的两个方向变化之间调整周期持续时间，作为调节时间的函数，条件（I）为0.5·ti.a

公开(公告)号：US20250138114A1

公开(公告)日：2025-05-01

申请号：US18705867

申请日：2022-11-04

Applicant: Helmholtz-Zentrum Dresden-Rossendorf e.V.

Inventor： Zhe Lei ,  Barbara Fritzsche ,  Kerstin Eckert

IPC: G01R33/10 ,  G01R33/022

Abstract: The invention relates to a measuring assembly (10) for determining a distribution of the magnetic gradient force, comprising a probe body (20) in which a hollow space (25) is formed. There is a probe suspension (30) in the hollow space (25), which contains a fluid (31) and at least one diamagnetic particle (35). A measuring device (40) is designed to determine a distance d of the diamagnetic particle/s (35) relative to a reference plane (29) on the probe body (20). A probe positioning unit (60) is designed to determine a geometric location of the hollow space (25) and/or the at least one particle (35) relative to a stationary reference location (69) outside the probe body (20).

公开(公告)号：US12034424B2

公开(公告)日：2024-07-09

申请号：US17058363

申请日：2019-05-07

Applicant: HELMHOLTZ-ZENTRUM DRESDEN—ROSSENDORF E.V.

Inventor： Heidemarie Schmidt ,  Nan Du ,  Agnieszka Bogusz ,  Stephan Krüger ,  Ilona Skorupa

IPC: H01F1/03 ,  H01H36/00 ,  H03H7/01

CPC classification number: H03H7/01 ,  H01H36/00 ,  H01F1/0317

Abstract: A method for reconfiguration of a vortex density in a rare earth manganate, to a non-volatile impedance switch having reconfigurable impedance, and to the use thereof as micro-inductance is disclosed. A unique voltage-time profile is applied between a first and a second electrically conductive contact attached to the rare earth manganate, such that the rare earth manganate passes through an ordering temperature in a region of an electric field forming between the two electrically conductive contacts during a cooling process during and after application of the voltage pulse or the voltage ramp, and the vortex density is thus influenced and adjusted locally in the region of the electric field forming between the two electrically conductive contacts.

公开(公告)号：US11505847B2

公开(公告)日：2022-11-22

申请号：US16309473

申请日：2017-06-13

Applicant: Freiberger Compound Materials GMBH ,  Helmholtz-Zentrum Dresden-Rossendorf E.V. ,  Technische Universität Bergakademie Freiberg

Inventor： Thomas Reinhold ,  Stefan Eichler ,  Berndt Weinert ,  Oliver Zeidler ,  Michael Stelter

IPC: C22B58/00 ,  C22B3/44 ,  C22B7/00 ,  C22B3/42

Abstract: The present invention encompasses a method of selectively separating Ga from wastewaters with the aid of a dialysis method. This exploits the particular complexation behaviour of Ga, which forms an unstable tetrahalo complex. This forms only in the case of a sufficiently high halide concentration. Since the halide concentration becomes lower across the membrane, the Ga-tetrahalo complex breaks down in the membrane, as a result of which the Ga is retained. Other metals such as In and Fe do not show this behaviour, and therefore the tetrahalo complexes of these metals can pass through the membrane and hence can be selectively separated off.

公开(公告)号：US20200282500A1

公开(公告)日：2020-09-10

申请号：US16753879

申请日：2018-10-12

Applicant: HELMHOLTZ-ZENTRUM DRESDEN - ROSSENDORF E.V.

Inventor： Uwe BARTHELD

IPC: B23Q1/38 ,  B23Q3/18

Abstract: The invention relates to an adjusting device for spatially adjusting the position of an object, comprising a plurality of plate elements which are arranged one over the other and which have radial guide structures that engage into one another at mutually facing sides, wherein at least one pair of movement plates and a pair of inclination plates are arranged on a base. The movement plates have a constant thickness, and the respective upper radial guide structures and lower radial guide structures of each movement plate are offset eccentrically relative to one another. The inclination plates have a variable thickness, and the respective upper radial guide structures and lower radial guide structures of each inclination plate are arranged concentrically to one another.