Predict your next investment

CONSUMER PRODUCTS & SERVICES | Education & Training (non-internet/mobile) / Colleges & Universities
uni-freiburg.de

See what CB Insights has to offer

Founded Year

1457

About University of Freiburg

University of Freiburg is a university.

University of Freiburg Headquarter Location

Friedrichstr. 39

Freiburg, 79098,

Germany

+49 7612030

Latest University of Freiburg News

Freiburg scientists enhance concept for feedback-controlled optical tweezers

Jan 6, 2022

06 Jan 2022 The potential of optical tweezers made of highly focused laser light to be able to grab cell clusters in a controlled manner and rotate them in any desired direction has been demonstrated by researchers at the University of Freiburg , Germany. Prof. Alexander Rohrbach from the Department of Microsystems Engineering says his team’s achievement will allow tiny objects such as miniature tumors to be studied more specifically under the microscope. The work is described in Nature Communications . The notable advantage of light tweezers is that, unlike mechanical tweezers, they can exert forces or torques even when grabbing through transparent objects. Computer-holographic optical tweezers capable of focusing laser light pixel by pixel in arbitrary and multiplied configurations have been used for years to control the positions of several grabbing fingers of light simultaneously in 3D space. This method has existed in research laboratories for almost two decades but is incapable of exerting forces and torques on larger objects, that is, ones with a diameter larger than approximately 0.1 mm. Rohrbach notes that the [previous] optical tweezers encounter difficulties because the objects are too large and sluggish to be rotated in an arbitrary and stable manner in an aqueous solution, as the optical tweezers are either not strong enough or fail to find a good grabbing position and therefore slip off. The Freiburg announcement states, “Remarkably, the reason why they fail to find the best grabbing position is because they do not look for it at all but grab blindly, relying on the ability of the researchers attempting to position the optical tweezers.” ‘Non-blind’ tweezers “Non-blind tweezers see what they are grabbing at by measuring and analyzing the light scattered on the object,” said Rohrbach. “We see various objects with our eyes because sunlight or indoor light is scattered on them and reproduced on our retina.” Laser tweezers can grab through transparent objects. However, the biological research objects scientists study under the microscope, such as cell clusters like miniature tumors or small fly embryos, are not completely transparent but behave like frosted glass in a bathroom window, where the light is diffuse after transmission and thus difficult to analyze. The new concept for seeing where the tweezers are reaching is to analyze the defocused laser-scattered light on a fast camera behind the object, which serves as a feedback signal. The more asymmetrical the spots of light of the individual light tweezers on the camera are, the more the light at the focus is scattered, leading to a greater change in the refractive index at the respective point in the object. These are the points at which the optical tweezers can efficiently grab at the object. In terms of physics, a local change in the polarization of the matter leads to an increased optical dipole force. According to Rohrbach, the astounding thing about the principle of localizing the best grabbing position is that the light scattering – that is, the change in momentum – is much stronger directly in the laser focus than that in front of or behind the focus. Each of the approximately five to ten optical tweezers should feel the best grabbing position on the basis of the scattered light in order to rotate the object in different directions. If one of the tweezers exerts too much force, however, the other tweezers can lose their hold. “This is a highly complex optimization problem that we will be puzzling over for some years to come,” says Rohrbach. His vision is that in the case of success the principle of contactless sample holding will be integrated into the microscopes of the future.

Predict your next investment

The CB Insights tech market intelligence platform analyzes millions of data points on venture capital, startups, patents , partnerships and news mentions to help you see tomorrow's opportunities, today.

University of Freiburg Patents

University of Freiburg has filed 2 patents.

The 3 most popular patent topics include:

  • Electromagnetism
  • Electrostatics
  • Semiconductor device fabrication
patents chart

Application Date

Grant Date

Title

Related Topics

Status

1/31/2019

5/26/2020

Semiconductor device fabrication, Semiconductor materials, Electrostatics, Electromagnetism, Thin film deposition

Grant

Application Date

1/31/2019

Grant Date

5/26/2020

Title

Related Topics

Semiconductor device fabrication, Semiconductor materials, Electrostatics, Electromagnetism, Thin film deposition

Status

Grant

University of Freiburg Web Traffic

Rank
Page Views per User (PVPU)
Page Views per Million (PVPM)
Reach per Million (RPM)
CBI Logo

University of Freiburg Rank

CB Insights uses Cookies

CBI websites generally use certain cookies to enable better interactions with our sites and services. Use of these cookies, which may be stored on your device, permits us to improve and customize your experience. You can read more about your cookie choices at our privacy policy here. By continuing to use this site you are consenting to these choices.