Mobius Photonics, Inc.

Electronic Components & Devices

Laser Source delivers user-switchable, visible-wavelength pulses.

Developed for use in super-resolution microscopy, Rainbow features 285 x 150 x 100 mm laser head and can produce output at 9 discrete wavelengths from 532–654 nm. Individual wavelengths can be switched on-the-fly, letting users tailor output to fluorescent marker in particular applications. Able to produce ~1 ns pulses at repetition rates up to 20 MHz, laser source can be externally triggered...

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Electronic Components & Devices

Laser Source delivers user-switchable, visible-wavelength pulses.

Developed for use in super-resolution microscopy, Rainbow features 285 x 150 x 100 mm laser head and can produce output at 9 discrete wavelengths from 532–654 nm. Individual wavelengths can be switched on-the-fly, letting users tailor output to fluorescent marker in particular applications. Able to produce ~1 ns pulses at repetition rates up to 20 MHz, laser source can be externally triggered...

Read More »
Electronic Components & Devices

Fiber-Based Laser Sources produce UV, green, or IR output.

G2- fiber laser sources come in 3 standard configurations that produce up to 60 W of 1,064 nm output, 45 W at 532 nm, and 30 W at 355 nm. While pulse widths are tunable from 2–6 nsec and repetition rates adjustable up to 2 MHz, pulse widths remain consistent with changes in rep rate. Output is diffraction-limited, and modular design facilitates field service and upgrades as well as custom...

Read More »
Electronic Components & Devices

Fiber-Based Laser Sources produce UV, green, or IR output.

G2Â- fiber laser sources come in 3 standard configurations that produce up to 60 W of 1,064 nm output, 45 W at 532 nm, and 30 W at 355 nm. While pulse widths are tunable from 2–6 nsec and repetition rates adjustable up to 2 MHz, pulse widths remain consistent with changes in rep rate. Output is diffraction-limited, and modular design facilitates field service and upgrades as well as custom...

Read More »
Electronic Components & Devices

Mobius Photonics Granted U.S. Patent for Laser System with Tailored Pulse Bursts

MOUNTAIN VIEW, Calif. - Mobius Photonics, an innovative producer of short pulsed fiber laser sources (IR, UV, and visible wavelengths), has been granted a United States patent for Tailored Pulse Burst." The patent number is 8,160,113. The patent covers a unique optical system that can produce user-specified bursts of laser pulses tailored in pulse heights, pulse widths, and pulse spacings. Unlike...

Read More »
Electronic Components & Devices

Mobius Photonics Granted U.S. Patent for Laser System with Tailored Pulse Bursts

MOUNTAIN VIEW, Calif. - Mobius Photonics, an innovative producer of short pulsed fiber laser sources (IR, UV, and visible wavelengths), has been granted a United States patent for Tailored Pulse Burst." The patent number is 8,160,113. The patent covers a unique optical system that can produce user-specified bursts of laser pulses tailored in pulse heights, pulse widths, and pulse spacings. Unlike...

Read More »
Communication Systems & Equipment

Mobius Photonics Granted U.S. Patent for Unique Fiber-Based Laser System

MOUNTAIN VIEW, Calif. - Mobius Photonics, an innovative producer of short pulsed fiber laser sources (IR, green, and UV laser), has been granted a United States patent for Fiber MOPA System without Stimulated Brillouin Scattering." The patent number is 8,009,705. The patent covers an optical fiber-based master oscillator power amplifier (MOPA) system that avoids stimulated Brillouin scattering...

Read More »
Communication Systems & Equipment

Mobius Photonics Granted U.S. Patent for Unique Fiber-Based Laser System

MOUNTAIN VIEW, Calif. - Mobius Photonics, an innovative producer of short pulsed fiber laser sources (IR, green, and UV laser), has been granted a United States patent for Fiber MOPA System without Stimulated Brillouin Scattering." The patent number is 8,009,705. The patent covers an optical fiber-based master oscillator power amplifier (MOPA) system that avoids stimulated Brillouin scattering...

Read More »
Electronic Components & Devices

Mobius Photonics Laser Source Used in Super-Resolution Microscopy Experiments at Max Planck Institute

MOUNTAIN VIEW, Calif. - Mobius Photonics, an innovative producer of short pulsed fiber laser sources (IR, green, and UV laser), announces that its G1R2" laser source has been used in super-resolution microscopy experiments at the Max Planck Institute for Biophysical Chemistry (Göttingen, Germany). The experiments demonstrated that a laser-based fluorescence microscopy technique called...

Read More »
Electronic Components & Devices

Mobius Photonics Laser Source Used in Super-Resolution Microscopy Experiments at Max Planck Institute

MOUNTAIN VIEW, Calif. - Mobius Photonics, an innovative producer of short pulsed fiber laser sources (IR, green, and UV laser), announces that its G1R2" laser source has been used in super-resolution microscopy experiments at the Max Planck Institute for Biophysical Chemistry (GÃ-¶ttingen, Germany). The experiments demonstrated that a laser-based fluorescence microscopy technique called...

Read More »
Electronic Components & Devices

Laser Source delivers user-switchable, visible-wavelength pulses.

Developed for use in super-resolution microscopy, Rainbow features 285 x 150 x 100 mm laser head and can produce output at 9 discrete wavelengths from 532–654 nm. Individual wavelengths can be switched on-the-fly, letting users tailor output to fluorescent marker in particular applications. Able to produce ~1 ns pulses at repetition rates up to 20 MHz, laser source can be externally triggered...

Read More »
Electronic Components & Devices

Laser Source delivers user-switchable, visible-wavelength pulses.

Developed for use in super-resolution microscopy, Rainbow features 285 x 150 x 100 mm laser head and can produce output at 9 discrete wavelengths from 532–654 nm. Individual wavelengths can be switched on-the-fly, letting users tailor output to fluorescent marker in particular applications. Able to produce ~1 ns pulses at repetition rates up to 20 MHz, laser source can be externally triggered...

Read More »
Electronic Components & Devices

Fiber-Based Laser Sources produce UV, green, or IR output.

G2- fiber laser sources come in 3 standard configurations that produce up to 60 W of 1,064 nm output, 45 W at 532 nm, and 30 W at 355 nm. While pulse widths are tunable from 2–6 nsec and repetition rates adjustable up to 2 MHz, pulse widths remain consistent with changes in rep rate. Output is diffraction-limited, and modular design facilitates field service and upgrades as well as custom...

Read More »
Electronic Components & Devices

Fiber-Based Laser Sources produce UV, green, or IR output.

G2Â- fiber laser sources come in 3 standard configurations that produce up to 60 W of 1,064 nm output, 45 W at 532 nm, and 30 W at 355 nm. While pulse widths are tunable from 2–6 nsec and repetition rates adjustable up to 2 MHz, pulse widths remain consistent with changes in rep rate. Output is diffraction-limited, and modular design facilitates field service and upgrades as well as custom...

Read More »
Electronic Components & Devices

Mobius Photonics Granted U.S. Patent for Laser System with Tailored Pulse Bursts

MOUNTAIN VIEW, Calif. - Mobius Photonics, an innovative producer of short pulsed fiber laser sources (IR, UV, and visible wavelengths), has been granted a United States patent for Tailored Pulse Burst." The patent number is 8,160,113. The patent covers a unique optical system that can produce user-specified bursts of laser pulses tailored in pulse heights, pulse widths, and pulse spacings. Unlike...

Read More »
Electronic Components & Devices

Mobius Photonics Granted U.S. Patent for Laser System with Tailored Pulse Bursts

MOUNTAIN VIEW, Calif. - Mobius Photonics, an innovative producer of short pulsed fiber laser sources (IR, UV, and visible wavelengths), has been granted a United States patent for Tailored Pulse Burst." The patent number is 8,160,113. The patent covers a unique optical system that can produce user-specified bursts of laser pulses tailored in pulse heights, pulse widths, and pulse spacings. Unlike...

Read More »
Communication Systems & Equipment

Mobius Photonics Granted U.S. Patent for Unique Fiber-Based Laser System

MOUNTAIN VIEW, Calif. - Mobius Photonics, an innovative producer of short pulsed fiber laser sources (IR, green, and UV laser), has been granted a United States patent for Fiber MOPA System without Stimulated Brillouin Scattering." The patent number is 8,009,705. The patent covers an optical fiber-based master oscillator power amplifier (MOPA) system that avoids stimulated Brillouin scattering...

Read More »
Communication Systems & Equipment

Mobius Photonics Granted U.S. Patent for Unique Fiber-Based Laser System

MOUNTAIN VIEW, Calif. - Mobius Photonics, an innovative producer of short pulsed fiber laser sources (IR, green, and UV laser), has been granted a United States patent for Fiber MOPA System without Stimulated Brillouin Scattering." The patent number is 8,009,705. The patent covers an optical fiber-based master oscillator power amplifier (MOPA) system that avoids stimulated Brillouin scattering...

Read More »
Electronic Components & Devices

Mobius Photonics Laser Source Used in Super-Resolution Microscopy Experiments at Max Planck Institute

MOUNTAIN VIEW, Calif. - Mobius Photonics, an innovative producer of short pulsed fiber laser sources (IR, green, and UV laser), announces that its G1R2" laser source has been used in super-resolution microscopy experiments at the Max Planck Institute for Biophysical Chemistry (Göttingen, Germany). The experiments demonstrated that a laser-based fluorescence microscopy technique called...

Read More »
Electronic Components & Devices

Mobius Photonics Laser Source Used in Super-Resolution Microscopy Experiments at Max Planck Institute

MOUNTAIN VIEW, Calif. - Mobius Photonics, an innovative producer of short pulsed fiber laser sources (IR, green, and UV laser), announces that its G1R2" laser source has been used in super-resolution microscopy experiments at the Max Planck Institute for Biophysical Chemistry (GÃ-¶ttingen, Germany). The experiments demonstrated that a laser-based fluorescence microscopy technique called...

Read More »

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