MALDI-TOF MS systems have solid state lasers and successive and varied delay times between ionization and acceleration (e.g. extraction) to change focus masses during a single sample signal acquisition without requiring tuning of the MS by a user. The (successive) different delay times can change by 1 ns to about 500 ns, and can be in a range that is between 1-2500 nanoseconds.

The driver condition detection system includes a driver monitor camera capturing a face of a driver of a vehicle and generating a facial image of the driver, and a driver condition detection part configured to detect a condition of the driver based on the facial image. If a part of face parts of the driver is hidden in the facial image, the driver condition detection part is configured to detect a condition of the driver based on face parts of the driver not hidden in the facial image. The face parts of the driver are a mouth, nose, right eye, and left eye of the driver.

The invention relates to optically pumped and pulsed solid-state lasers which are used in mass spectrometers in particular for ionization by matrix-assisted laser desorption (MALDI) and which operate at pulse frequencies of up to 10 kilohertz or even higher. The invention proposes that, instead of interrupting the clocked sequence of the laser operation, individual light pulses or groups of light pulses are blanked out so that subsequent light pulses do not have a higher energy density, in accordance with the requirements for LDI processes. Methods and devices for the blanking out of light pulses are provided which are, in particular, low cost and considerably less complex than other methods.

The disclosure relates to devices and methods for the spectrometric analysis of sample material located on a sample support, and in particular on a flat sample support plate, using axial time-of-flight analysis. One operating mode of the devices and methods comprises an adjustment of the pulse focal position for the abrupt ablation and/or abrupt desorption of sample material in a z-direction that is perpendicular to a tangential plane at the location of ablation and/or desorption at the sample support, and the selection of a suitable setting for an acceleration with time lag of the ablated and/or desorbed and ionized sample material onto a flight path. It can be particularly advantageous to use these devices and methods in mass spectrometry imaging (MSI). The devices and methods can, in particular, be used with laser desorption/ionization (LDI) and specifically matrix-assisted laser desorption/ionization (MALDI).

The invention relates to reflectors for time-of-flight mass spectrometers, and especially their design. A Mamyrin reflector is provided which consists of metal plates with cut-out internal apertures, and symmetric shielding edges which are set back from the inner edges. The dipole field formed by these shielding edges penetrates only slightly through the plates and into the interior of the reflector. With a good mechanical design, the resolving power of the time-of-flight mass spectrometer increases by around fifteen percent compared to the best prior art to date.

Apparatuses and methods for time-of-flight mass spectrometry providing effective pulsed conversion of continuous ion beams into pulsed ion packets is disclosed. Bunching of energetic continuous ion beams forms ion packets, which are filtered by a subsequent isochronous energy filter. The bunching method is particularly suitable for ion sources with relatively large spatial emittance, otherwise unable to fir the acceptance of orthogonal accelerators. The method is particularly suitable for multi-reflecting TOF MS, which accommodates small size ion packets and where the duty cycle advantage of orthogonal accelerators is minor.

An ion mobility gas detector apparatus including a detector core, an inlet gas path, an exhaust gas path, a source of diluent gas, and at least one or more sensors for measuring temperature, pressure and humidity of gas streams. Further included is a mixing mechanism adapted to mix at least first and second gas streams in response to one or more sensor measurements. A controller is provided for applying drive signals to the detector core.

Embodiments relate to an apparatus, method, or computer program. A laser may be configured to irradiate a plurality of laser pulses on a target area to ionize a sample placed in the target area into at least one ionized particle. Electrodes at a first end of a flight tube may be configured to accelerate ionized particles into the flight tube. A detector at a second opposite end of the flight tube may independently measure a time of flight of the ionized particles through the flight tube and an intensity of the ionized particles.

The invention provides (a) a time-of-flight mass spectrometer with an acceleration region, a single-stage or multi-stage reflector, and an ion detector, further comprising an additional reflector whose potential has, at least in a subregion, a two-dimensional logarithmic potential component and a two-dimensional octopole potential component, and (b) methods for operating the time-of-flight mass spectrometer.

MALDI-TOF MS systems have solid state lasers and successive and varied delay times between ionization and acceleration (e.g. extraction) to change focus masses during a single sample signal acquisition without requiring tuning of the MS by a user. The (successive) different delay times can change by 1 ns to about 500 ns, and can be in a range that is between 1-2500 nanoseconds.