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    • 5. 发明授权
    • Method and apparatus for correction of initial ion velocity in a reflectron time-of-flight mass spectrometer
    • 用于校正反射器飞行时间质谱仪中初始离子速度的方法和装置
    • US06365892B1
    • 2002-04-02
    • US09199108
    • 1998-11-24
    • Robert J. CotterVladimir M. Doroshenko
    • Robert J. CotterVladimir M. Doroshenko
    • B01D5944
    • H01J49/405H01J49/06H01J49/40
    • The present invention provides for a reflectron time-of-flight mass spectrometer in which there exists a curved field in a portion of the reflectron that takes into account acceleration and deceleration fields in upstream (from the ion source down to the reflectron) and downstream (from the reflectron down to the ion detector) regions, which are always present in any TOF-MS. The reflectron includes a decelerating section and a correcting section, with curved electric fields in the correcting and/or decelerating sections of the reflectron being considered. Moreover, analytic expressions are provided for calculating the profiles of the curved electric field in the second (correcting) section of the reflectron, which expressions are valid for arbitrary electric field distributions in the upstream and downstream regions as well as in the first (deceleration) section of the reflectron. These profiles will depend on the electric field distributions in the upstream and downstream regions and in the first (deceleration) section of the reflectron.
    • 本发明提供了一种反射器飞行时间质谱仪,其中在反射器的一部分中存在弯曲场,其考虑上游(从离子源到反射器)和下游的加速和减速场( 从反射器到离子检测器)区域,其总是存在于任何TOF-MS中。 反射镜包括减速部分和校正部分,在反射镜的校正和/或减速部分中考虑弯曲的电场。 此外,提供分析表达式用于计算反射器的第二(校正)部分中的弯曲电场的轮廓,该表达式对于上游和下游区域以及第一(减速)区域中的任意电场分布是有效的, 反射镜的一部分。 这些轮廓将取决于上游和下游区域以及反射镜的第一(减速)部分中的电场分布。
    • 6. 发明授权
    • Method and apparatus for isolating ions in an ion trap with increased
resolving power
    • 用于以更高的分辨能力分离离子阱中的离子的方法和装置
    • US5696376A
    • 1997-12-09
    • US650411
    • 1996-05-20
    • Vladimir M. DoroshenkoRobert J. Cotter
    • Vladimir M. DoroshenkoRobert J. Cotter
    • H01J49/42B01D59/44H01J49/00
    • H01J49/424H01J49/427
    • A method of operation of an ion trap mass spectrometer which isolates a first group of ions having a mass-to-charge ratio range is disclosed. The method includes producing ions from a plurality of atoms or molecules; trapping the ions in an ion trap by applying a trapping voltage to a ring electrode; applying an excitation voltage to a pair of end-cap electrodes; employing as the excitation voltage a first broadband excitation waveform and a second broadband excitation waveform, with the first waveform exciting the ions excluding substantially all of the first group and also excluding substantially all of a second group of ions having a range of mass-to-charge ratios about the first group's mass-to-charge ratio range, and the second waveform exciting the second group; applying the first waveform in order to eject the ions excluding substantially all of the first and second groups; and applying the second waveform in order to successively eject the second group of ions, according to the mass-to-charge ratios thereof, excluding substantially all of the first group of ions, thereby isolating the first group of ions. In another embodiment, the excitation voltage is a broadband excitation waveform having first, second, and third excitation portions, with the first and third portions exciting the ions excluding substantially all of the first group and also excluding substantially all of the second group, and the second portion exciting the second group. Associated apparatus is also disclosed.
    • 公开了分离具有质荷比范围的第一组离子的离子阱质谱仪的操作方法。 该方法包括从多个原子或分子产生离子; 通过向环形电极施加捕获电压将离子捕获在离子阱中; 向一对端帽电极施加激励电压; 使用第一宽带激励波形和第二宽带激励波形作为激励电压,其中第一波形激励除了基本上所有第一组之外的离子,并且还排除基本上全部具有质量 - 电荷比关于第一组的质荷比范围,第二波形激励第二组; 施加第一波形以排出除了基本上所有第一和第二组之外的离子; 以及施加所述第二波形,以便根据其质荷比,连续地排出所述第二组离子,所述第二组离子基本上不包括所述第一组离子,从而隔离所述第一组离子。 在另一个实施例中,激励电压是具有第一,第二和第三激励部分的宽带激励波形,其中第一和第三部分激励除了基本上所有第一组之外的离子,并且还排除了基本上所有的第二组, 激励第二组的第二部分。 还公开了相关装置。
    • 7. 发明授权
    • Non-linear field reflectron
    • 非线性场反射镜
    • US5464985A
    • 1995-11-07
    • US130530
    • 1993-10-01
    • Timothy J. CornishRobert J. Cotter
    • Timothy J. CornishRobert J. Cotter
    • H01J49/40
    • H01J49/405
    • A reflectron capable of focusing an entire mass range of product ions at substantially the same focal point, comprising a plurality of lens plates, each having an opening therein, for generating a non-linear electric field in the reflectron. To generate the non-linear electric field, the voltage applied to each successive lens plate increases non-linearly with respect to its adjacent lens plate. The voltage of the first lens plate having the opening through which the ions first enter the reflectron is set to a low potential and the voltage being applied to each successive lens plate increases in a non-linear manner with the largest voltage being applied to the lens plate furthest from the first lens plate. This non-linear voltage application, to generate the non-linear electric field, can be achieved by coupling a potentiometer between each lens plate and adjusting each potentiometer accordingly. Alternatively, to generate the non-linear electric field, the lens plates may be unequally spaced and an equal voltage may be applied to each lens plate.
    • 一种反射镜,其能够将基本上相同的焦点处的整个质量范围的产物离子聚焦,包括多个透镜板,每个透镜板在其中具有开口,用于在反射器中产生非线性电场。 为了产生非线性电场,施加到每个连续透镜板的电压相对于其相邻的透镜板非线性增加。 具有离子首先进入反射器的开口的第一透镜板的电压被设定为低电位,并且施加到每个连续透镜板的电压以非线性方式增加,其中施加到透镜的最大电压 板最远离第一透镜板。 用于产生非线性电场的非线性电压应用可以通过在每个透镜板之间耦合电位器并相应地调节每个电位器来实现。 或者,为了产生非线性电场,透镜板可以不等间隔,并且可以向每个透镜板施加相等的电压。