# The Max Planck Fellowship Program

## The Albert Einstein Institute

The Albert Einstein Institute (AEI) offers a stimulating and dynamic research environment with broad opportunities for junior scientists. The institute is one of the world's leading centers for gravitational physics, and it is unique in the breadth and depth of its approach to the subject. Scientists at the AEI focus on all aspects of Einstein's theory of general relativity. Their research ranges from geometrical and analytical aspects of the theory to the unification of general relativity and quantum mechanics all the way to the modeling, data analysis, and astrophysics of gravitational waves. It also covers experimental approaches and techniques required to open a new window to the Universe and to test predictions of general relativity.

## General information

Each year the AEI will grant a limited number of Max Planck fellowships to outstanding foreign post-doctoral scientists who wish to spend up to two years at the institute.

The Max Planck fellowship program offers three different stipends, depending on research track-record and achievements (net monthly stipend of €2,100, €2,300 or €3,000) plus some benefits and moving-cost reimbursements.

## Application information

Candidates interested in Max Planck fellowships should fill out a form (which is different depending on the AEI division they plan to be associated to, please see below) and upload a cover letter, curriculum vitae, list of publications, and statement of past, current and future research interests. Electronic Portable Document Format (PDF) submittals are strongly preferred. Applicants would need to indicate the names of three referees for recommendation letters. Referees will be notified by email on how to upload the letters.

The Max Planck Society is committed to increase the number of women and individuals with disabilities in its workforce in areas where they are under-represented. Thus, it encourages applications from such qualified individuals.

**Astrophysical and Cosmological Relativity Division (Potsdam)**

The "Astrophysical and Cosmological Relativity" division, led by Dr. Alessandra Buonanno, is currently composed of 21 scientists, and one research group leader, Dr. Harald Pfeiffer. The division also hosts several long and short-term visitors.

The "Astrophysical and Cosmological Relativity" division focuses on several aspects of gravitational-wave physics and astrophysics, including (i) theoretical gravitational dynamics and radiation (effective field theory, post-Newtonian theory, gravitational self-force approach, perturbation theory and effective-one-body formalism), (ii) numerical relativity, most notably simulations of binary black holes and binary neutron stars, (iii) interpretation and analysis of data from gravitational-wave detectors on the ground (LIGO and Virgo) and in space (LISA), (iv) astrophysics of compact objects, (v) cosmography with gravitational waves from binary systems, and (vi) tests of strong gravity within General Relativity and alternative gravity theories. Members of the division have the opportunity to join the LIGO Scientific Collaboration through the group's membership, the LISA Consortium, and also participate to building the science case for third generation ground-based detectors (Einstein Telescope and Cosmic Explorer).

The "Astrophysical and Cosmological Relativity" division has two high-performance computer clusters (Minerva and Vulcan) to run numerical-relativity simulations, and to carry out source modeling and data-analysis studies.

The "Astrophysical and Cosmological Relativity" division has ties with the Physics Department at the University of Maryland, the Humboldt University in Berlin, and the University of Potsdam.

Candidates are encouraged to apply as soon as possible. The deadline for full consideration for both Ph.D. and postdoctoral positions is, December 15th, 2017. The positions are available as early as Spring 2018, but they can also start later, in Fall 2018. Applications will be considered until all positions are filled. To apply, please fill out this form.

For further information please contact Dr. Andre Schirotzek: andre.schirotzek@aei.mpg.de

Contact:

Dr. Andre Schirotzek

Max-Planck-Institut fuer Gravitationsphysik

Albert-Einstein-Institut

Am Muehlenberg 1

D-14476 Golm

Germany

email: andre.schirotzek@aei.mpg.de

**Computational Relativistic Astrophysics Division (Potsdam)**

This new division, led by Dr. Masaru Shibata, was established on January 1st 2018.

The "Computational Relativistic Astrophysics" division will focus on several research topics in general relativity and relativistic astrophysics, including

(i) numerical relativity with matter, in particular, neutrino-radiation-hydrodynamics, magneto-(radiation-)hydrodynamics, and viscous-radiation-hydrodynamics, for mergers of neutron-star binaries (binary neutron stars and black hole-neutron star binaries), long-term evolution of the merger remnants, and stellar collapse to a black hole and a neutron star,

(ii) modeling of gravitational waves from neutron-star binaries based on numerical-relativity gravitational waveforms,

(iii) modeling of electromagnetic counterparts (macronovae/kilonovae, short gamma-ray bursts, etc.) associated with neutron-star mergers, including the studies of r-process nucleosynthesis,

(iv) studies of the formation processes for a variety of black holes (stellar-mass, intermediate-mass, and supermassive black holes), and gravitational-wave and electromagnetic signals associated with the formation processes,

(v) studies of phenomena associated with supermassive black holes, e.g., tidal disruption of stars by supermassive black holes and emission of gravitational waves by extreme mass-ratio inspirals (EMRIs),

(vi) numerical relativity beyond general relativity.

The "Computational Relativistic Astrophysics" division has ties with the Yukawa Institute for Theoretical Physics, Kyoto University.

Candidates are encouraged to apply as soon as possible. The deadline for full consideration is, January 15th, 2018. The positions are available from August 2018, but they may also start earlier. Applications will be considered until all positions are filled. To apply, please fill out **this form**.

For further information please contact Dr. Masaru Shibata: mshibata@yukawa.kyoto-u.ac.jp.

**Laser Interferometry and Gravitational Wave Astronomy Division (Hannover)**

The final goal of all activities of this division is the detection of gravitational waves and the development of gravitational-wave astronomy. This comprises the development and operation of large gravitational-wave detectors on the ground as well as in space, but also a full range of supporting laboratory experiments in quantum optics, atomic physics, and laser physics.

The division operates the GEO600 gravitational wave detector in cooperation with UK partners in Glasgow and Cardiff. The GEO collaboration is a world leader in gravitational-wave detector technology development. The laser systems designed for GEO600 are key components in the upgrade of the LIGO gravitational wave detectors in the USA.

The division also operates a 10 m prototype interferometer which provides an ultra-low displacement noise environment, a large scale ultra-high vacuum envelope, a highly stabilized 35 W laser, extensive environmental monitoring, and full digital control infrastructure and data management. The first experiment to be set up in this facility is a Michelson interferometer to explore the standard quantum limit (SQL) of interferometry.

The division plays a leading role in the development of the space-based gravitational wave detector LISA (Laser Interferometer Space Antenna). The current mission design for the ESA L3 mission opportunity is called LISA (LISA). In preparation for LISA, the division has a major role in the LISA Pathfinder mission, which has been launched on December 3, 2015 and has demonstrated the measurement and control systems designed for LISA.

Further, LISA technology is used for Earth observation and will improve future satellite geodesy missions. The division contributes a laser interferometer to fly on the GRACE Follow-On mission which will launch in 2017 to observe the critical indicators of climate change through changes in Earth's gravitational field.

Applications for positions in this division are accepted at any time throughout the year.

**To apply for a Max Planck fellowship in the Laser Interferometry and Gravitational Wave Astronomy Division please go to this dedicated web-page.**

If you need more information please contact laser_interferometry@maxplanckfellows.aei.mpg.de

**Observational Relativity and Cosmology Division (Hannover)**

Research in this division is focused on the direct observational consequences of Einstein's general theory of relativity, particularly as it relates to astrophysics and cosmology.

The research focuses primarily on searches for gravitational waves in data from the most sensitive ground based interferometric detectors. These include searches for long lived signals from rapidly rotating neutron stars, transient signals from the coalescence of compact objects in binary systems and unmodelled burst signals. Through the division’s affiliation to the LIGO Scientific Collaboration group members may enjoy full access to data from the LIGO, Virgo and GEO600 detectors.

Scientists in the division also search for electromagnetic emissions from neutron stars and have discovered several new radio and gamma-ray pulsars. The group operates the ATLAS computing cluster: with its 13000+ CPU cores and 1000+ GPUs this is the world's largest and most powerful resource dedicated to gravitational wave searches and data analysis. The division also help run the Einstein@Home project, which uses computing power donated by the general public to search for gravitational waves and electromagnetic emission from neutron stars.

Applications for positions in this division are accepted at any time throughout the year.

**To apply for a Max Planck fellowship in the Observational Relativity and Cosmology Division please go to this dedicated web-page.**

If you need more information please contact observational_relativity@maxplanckfellows.aei.mpg.de

**Quantum Gravity and Unified Theories Division (Potsdam)**

Research in this division is purely theoretical and brings together some of the most exciting challenges of modern physics and mathematics. The overall goal is the unification of general relativity and quantum mechanics into a theory of quantum gravity, which should also provide a consistent framework for incorporating the other fundamental forces in nature.

A consistent theory of quantum gravity seems to be required to answer questions about the early universe and the nature of black holes. Several candidate theories have been put forward over the last decades. On the one hand, supergravity and super-string theory aim for a unification of gravity with the other fundamental interactions, and have their roots in quantum field theory. The requirement of mathematical consistency and the non-renormalizability of perturbatively quantized gravity, and the need to incorporate the non-gravitational interactions are likely to force us to modify Einstein's theory at the smallest distances. This may lead an entirely new type of theory, which could explain how space-time is dissolved at very small distances, and in which Einstein's theory emerges only as an effective low energy theory. On the other hand, non-pertubative approaches such as loop quantum gravity, spin foams and group field theory proceed from basic principles of General Relativity. These canonical approaches emphasize the geometrical aspects and appear well suited to deal with unsolved conceptual issues of quantum gravity, such as e.g. the problem of time or the interpretation of the wave function of the universe.

As it is far from clear what a consistent theory of quantum gravity will look like and what its main features will be, the division aims to represent all the major current approaches to quantum gravity.

The division Quantum Gravity and Unified Theories is not offering any Max Planck Fellowships at the moment.

If you need more information please contact quantum_gravity@maxplanckfellows.aei.mpg.de.