{"id":1556,"date":"2024-08-21T11:53:27","date_gmt":"2024-08-21T11:53:27","guid":{"rendered":"https:\/\/www.matterwaveoptics.eu\/FOMO2024\/?page_id=1556"},"modified":"2024-09-07T19:46:06","modified_gmt":"2024-09-07T19:46:06","slug":"posters","status":"publish","type":"page","link":"https:\/\/www.matterwaveoptics.eu\/FOMO2024\/posters\/","title":{"rendered":"Conference Posters"},"content":{"rendered":"\n

POSTERS TUESDAY 10\/9\/2024<\/h2>\n\n\n\n
1<\/td>ABIDI MOUINE<\/td>Atom interferometry based quantum inertial navigation sensors<\/td><\/tr>
2<\/td>ABRAHAM JOEL<\/td>Development of a compact, fibre-based atom interferometer for rotation sensing<\/td><\/tr>
3<\/td>ALLARD BAPTISTE<\/td>Bose-Einstein condensate source on an optical grating-based atom chip for quantum sensor applications<\/td><\/tr>
4<\/td>AUGST NADJA<\/td>Wave-packet evolution during a laser pulse for single- and two-photon atomic diffraction<\/td><\/tr>
5<\/td>BARBERI ALICE<\/td>Theory of a continuous atom laser<\/td><\/tr>
6<\/td>BARCKLAY RACHEL BARCKLAY<\/td>Broadband Clock Atom Interferometry for Gravity Gradiometry<\/td><\/tr>
7<\/td>BHADANE ANURAG<\/td>Atom interferometry in microgravity on long time scales<\/td><\/tr>
8<\/td>BIGARD CLARA<\/td>Optimal Floquet Engineering for Large Scale Atom Interferometers<\/td><\/tr>
9<\/td>B\u00d6HRINGER SAMUEL<\/td>Theoretical Description of Beamsplitters and Mirrors in Potentials via Oscillator Equations<\/td><\/tr>
10<\/td>BOUCHER OSCAR<\/td>Cold ytterbium atoms\u2019 source for atom interferometry<\/td><\/tr>
11<\/td>BRUNEAU MATTHIEU<\/td>Simulation of atomic diffraction through a nanograting<\/td><\/tr>
12<\/td>B\u00dcHLER JAKOB<\/td>Scattering of keV protons at graphene: Insights from simulations<\/td><\/tr>
13<\/td>CHAMAKHI BOURAS RAJA<\/td>Enhanced Control of Coherent Quantum Transport in Bose-Einstein Condensates using the Ermakov Method<\/td><\/tr>
14<\/td>CHEN XI<\/td>Progress of space cold atom interferometer in the China Space Station<\/td><\/tr>
15<\/td>DATH HRIDAY<\/td>Effect of Hyperfine Magnetic Sub level Transitions in Atom  Interferometry based Gravimeter<\/td><\/tr>
16<\/td>DATH HRIDAY<\/td>Efficient Magnetic Field compensation for Sub Doppler Cooling using Hanle  Effect<\/td><\/tr>
17<\/td>DES COGNETS CYRILLE<\/td>Rotating atom interferometer for onboard quantum inertial sensing<\/td><\/tr>
18<\/td>DORNE ANAIS<\/td>Towards a Sagnac atom interferometer using Fresnel zone plate ring waveguides<\/td><\/tr>
19<\/td>ENTIN NICHOLAS<\/td>MAGIS-100 Atom Source Design<\/td><\/tr>
20<\/td>FERSTL RICHARD<\/td>Continuous deep UV lasers for high-mass matter-wave interference<\/td><\/tr>
21<\/td>FIRENZE GRETA<\/td>Metrological study of quantum gravimeters for geophysics<\/td><\/tr>
22<\/td>FRIEDRICH ALEXANDER<\/td>Gravitational Redshift Test in the COMPASSO Mission via a Two-Way Frequency Link Between Earth and the ISS<\/td><\/tr>
23<\/td>GARCION CHARLES<\/td>Quantum Bubbles Under Microgravity Conditions<\/td><\/tr>
24<\/td>GEORGE JOEL<\/td>Quantum Dynamics Control on Integrable Atom Chip Testbed <\/td><\/tr>
25<\/td>GERENT JEAN-BAPTISTE<\/td>Experimental realization of RF-dressed ultra-cold bubbles in microgravity: update on the Cold Atom Laboratory (CAL) mission<\/td><\/tr>
26<\/td>GERLICH STEFAN<\/td>Matter-Wave Interferometry with Metal Clusters and Biomolecules<\/td><\/tr>
27<\/td>GERSEMANN MATTHIAS<\/td>Multi-axis quantum gyroscope with multi-loop atomic Sagnac interferometry<\/td><\/tr>
28<\/td>GIACOMELLI BIANCA<\/td>Toward quantum correlation experiments and applications on CMOS atom chips<\/td><\/tr>
29<\/td>GILL SUKHJOVAN SINGH<\/td>Dark Energy search using atom interferometry in microgravity<\/td><\/tr>
30<\/td>GLASBRENNER ERIC<\/td>Limit of Adiabatic Perturbation Theory for Large-Momentum-Transfer Atom Interferometers<\/td><\/tr>
31<\/td>GRAUER VANESSA ANNABELLE<\/td>AeroQGrav – absolute quantum gravimetry<\/td><\/tr>
32<\/td>GRENSEMANN KAI<\/td>Very long baseline atom interferometry for precision gravity sensing<\/td><\/tr>
33<\/td>G\u00dcNTHER JULIAN<\/td>squeezing enhancement in atom interferometers based on bragg diffraction<\/td><\/tr>
34<\/td>GURCHENKO ALEXEI<\/td>Towards quantum hybrid of atoms and mg-scale pendulums for testing gravitational interaction<\/td><\/tr>
35<\/td>HAASE JAN SIMON<\/td>Towards all-optical entangled BECs in microgravity<\/td><\/tr>
36<\/td>HANIMELI EKIM TAYLAN<\/td>Enabling interferometry techniques with Bragg and Raman diffractions<\/td><\/tr>
37<\/td>HESKE ASTRID<\/td>Herakleitos, de Broglie and the quest for refined cold quantum sensors for space applications<\/td><\/tr>
38<\/td>HOPTON BEN<\/td>Proposal for multi-frequency light generation to be used for enhanced atom capture experiments<\/td><\/tr>
39<\/td>HUANG PANWEI<\/td>Compact high-precision absolute atom gravimeter WAG-H5-2 at the 11th International Comparison of Absolute Gravimeters<\/td><\/tr>
40<\/td>IANNIZZOTTO VENEZZE LUDOVICO<\/td>A CONTINUOUSLY-PROBED STRONTIUM OPTICAL LATTICE CLOCK FOR DARK MATTER SEARCHES<\/td><\/tr>
41<\/td>JANSON GREGOR<\/td>Relativistic Center-of-mass and Relative Coordinates in Curved Spacetime – Relativistic Signatures in Atom Interferometry<\/td><\/tr>
42<\/td>JOSSET ALICE<\/td>Progress towards the creation of spin-squeezed states for AION<\/td><\/tr>
43<\/td>KANITZ CARINA<\/td>Towards creating a low-energy atom beam for matter wave diffraction experiments<\/td><\/tr>
44<\/td>KIRSTEN-SIEM\u00df JAN-NICLAS<\/td>Intuitive and Versatile Software for Real-world Quantum Sensors<\/td><\/tr>
45<\/td>KLEINSTEINBERG GINA<\/td>Scenario Building of a Quantum Space Gravimetry Mission for Earth Observation <\/td><\/tr>
46<\/td>KOKALJ ZAN<\/td>Effect of an environment on the performance of quantum interferometers<\/td><\/tr>
47<\/td>KONRAD BERND<\/td>Angular Bloch Oscillations and their applications<\/td><\/tr><\/tbody><\/table><\/figure>\n\n\n\n

POSTERS THURSDAY 12\/9\/2024<\/h2>\n\n\n\n
1<\/td>KREHLIK TOMASZ<\/td>Electromagnetically induced transparency with Rydberg levels in 87Rb BEC<\/td><\/tr>
2<\/td>LAMIRAULT CLOTHILDE<\/td>Pulse shaping and velocity selection in atomic Bragg diffraction<\/td><\/tr>
3<\/td>LANDRU MAL<\/td>MULTI-SPECIES COLD ATOM INTERFEROMETRY FOR INERTIAL MEASUREMENTS<\/td><\/tr>
4<\/td>LATORRE BASTIDAS DAVID<\/td>Robust and miniaturized Zerodur based optical and vacuum systems for quantum technology applications<\/td><\/tr>
5<\/td>LE MENER JULIEN<\/td>Atom interferometry in an Einstein Elevator<\/td><\/tr>
6<\/td>LEOPOLDT DORTHE<\/td>Towards dual species atom interferometry in microgravity<\/td><\/tr>
7<\/td>LU SIBIN<\/td>Compact High-Resolution Atomic Interferometric Inertial Sensor<\/td><\/tr>
8<\/td>MA\u00cfNOS ALEXANDRE<\/td>Development of an absolute airborne gravimeter using cold atom interferometry<\/td><\/tr>
9<\/td>MARTINEZ LAHUERTA VICTOR JOSE<\/td>Robust Bragg diffraction for atom interferometers using optimal control theory<\/td><\/tr>
10<\/td>MASIELLO ISMAELE VINCENT<\/td>Direct extraction of path weak values from interferograms without auxiliary qubits<\/td><\/tr>
11<\/td>MAZZINGHI CHIARA<\/td>Differential Mach-Zehnder Interferometry with Trapped BECs<\/td><\/tr>
12<\/td>MENG YIMING<\/td>Large scale atom interferometry with the MIGA gravity antenna<\/td><\/tr>
13<\/td>M\u00c9TAYER CL\u00c9MENT<\/td>All-optical BEC in microgravity on-board the ZeroG plane<\/td><\/tr>
14<\/td>MHAMMEDI NASSIM<\/td>Delta-Kick Squeezing: beating the Standard Quantum Limit in atom interferometry<\/td><\/tr>
15<\/td>M\u00d6NKEBERG PATRIK<\/td>Quantum dynamics of trapped atom interferometers in optical lattices<\/td><\/tr>
16<\/td>MONTERO MARIO<\/td>Two-photon E1-M1 clock transition excitation in 174Yb atoms for quantum clock interferometry<\/td><\/tr>
17<\/td>NATALE DAVIDE<\/td>Towards a continuous atom laser <\/td><\/tr>
18<\/td>NIEHOF CHRISTIAN<\/td>Finite speed of light and gravitational effects in atom interferometry<\/td><\/tr>
19<\/td>OSESTAD EIVIND KRISTEN<\/td>Atomic diffraction by nanoholes in hexagonal boron nitride<\/td><\/tr>
20<\/td>OWEN FREYA<\/td>Multiple simultaneously operating MOT\u2019s and CMOS technology on an atom chip for optical clocks.<\/td><\/tr>
21<\/td>PATHAK VISHAL<\/td>Perfect Ring-shaped Bose-Einstein condensate<\/td><\/tr>
22<\/td>PEDALINO SEBASTIAN<\/td>Matter-wave Interference with Metal Nanoparticles<\/td><\/tr>
23<\/td>PUTHIYA VEETTIL VISHNUPRIYA<\/td>Matter wave lensing<\/td><\/tr>
24<\/td>RAMIREZ BRUNO<\/td>A tailored source for 1MDa metal nanoparticle interference<\/td><\/tr>
25<\/td>REINHARDT DAVID<\/td>Enhancing parameter estimation for the nonlinear Schr\u00f6dinger equation using M\u00f6bius transformations<\/td><\/tr>
26<\/td>ROURA ALBERT<\/td>Atom interferometer as a freely falling clock for time-dilation measurements<\/td><\/tr>
27<\/td>R\u00dcHMANN SANDRA<\/td>BECCAL \u2013 The Bose-Einstein Condensate and Cold Atom Laboratory<\/td><\/tr>
28<\/td>RV SRIGANAPATHY RAGHAV<\/td>Circular Atomtronics with Binary Bose-Einstein Condensate<\/td><\/tr>
29<\/td>RYBAKOVA OLGA<\/td>Sources and beam splitters for matter-wave interferometry of proteins<\/td><\/tr>
30<\/td>SABULSKY DYLAN<\/td>Transient rf magnetic gratings for atom interferometry on an atom chip<\/td><\/tr>
31<\/td>SCHWERSENZ NICO<\/td>Simulating matter-wave lensing of BECs in 2D and 3D<\/td><\/tr>
32<\/td>SI AHMED RAYAN<\/td> simulation of the effect of the wavefront distortion on the Atomic interferometers<\/td><\/tr>
33<\/td>SLOWINSKI RONNIE<\/td>Attempting the time reversal of a cold atomic gas cloud with artificial gauge fields<\/td><\/tr>
34<\/td>STIEHLER JAN ERIC<\/td>ORKA – Towards a Cavity Enhanced All Optical Rb87 BEC Source for Atom Interferometry in Microgravity<\/td><\/tr>
35<\/td>TANDON DHRUV<\/td>Developing Optical Lattice Transport and Launch Systems for MAGIS-100<\/td><\/tr>
36<\/td>TESTA RENZO<\/td>quantum state engineering with dynamic optical potentials: from sensing applications to factorization of integers<\/td><\/tr>
37<\/td>TITOV NIKITA<\/td>The spherical model on a Y-junction and other graphs<\/td><\/tr>
38<\/td>TROMBETTONI ANDREA<\/td>Effect of an environment on the performance of quantum interferometers<\/td><\/tr>
39<\/td>UKHANOVA ALISA<\/td>Compact and robust laser system for air-borne gravimetry<\/td><\/tr>
40<\/td>UZUN CEREN<\/td>An Optically-Guided Atom Interferometer<\/td><\/tr>
41<\/td>VERBEKE KATIA<\/td>Atom interferometry: a cavity approach<\/td><\/tr>
42<\/td>WERNER MICHAEL<\/td>Tomography of the Gravitational Potential in Very-Long-Baseline Atom Interferometers<\/td><\/tr>
43<\/td>XIA TENGFEI<\/td>Towards non-destructive microwave detection of a trapped ultracold ensemble<\/td><\/tr>
44<\/td>YAN SITONG<\/td>Recent progress of the 10-meter atom interferometer<\/td><\/tr>
45<\/td>ZHANG DANFANG<\/td>A compact optical system for dual-species space cold atom interferometer<\/td><\/tr>
46<\/td>ZHANG XIAOWEI<\/td>Dependence of the ellipse fitting noise on the differential phase between interferometers in atom gravity gradiometers<\/td><\/tr><\/tbody><\/table><\/figure>\n","protected":false},"excerpt":{"rendered":"

POSTERS TUESDAY 10\/9\/2024 1 ABIDI MOUINE Atom interferometry based quantum inertial navigation sensors 2 ABRAHAM JOEL Development of a compact, fibre-based atom interferometer for rotation sensing 3 ALLARD BAPTISTE Bose-Einstein condensate source on an optical grating-based atom chip for quantum sensor applications 4 AUGST NADJA Wave-packet evolution during a laser pulse for single- and two-photon […]<\/p>\n","protected":false},"author":1,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":{"_monsterinsights_skip_tracking":false,"_monsterinsights_sitenote_active":false,"_monsterinsights_sitenote_note":"","_monsterinsights_sitenote_category":0,"advanced_seo_description":"","jetpack_seo_html_title":"","jetpack_seo_noindex":false,"footnotes":""},"class_list":["post-1556","page","type-page","status-publish","hentry"],"jetpack-related-posts":[{"id":232,"url":"https:\/\/www.matterwaveoptics.eu\/FOMO2024\/conference\/","url_meta":{"origin":1556,"position":0},"title":"Conference","author":"wvk_3vn943","date":"April 10, 2024","format":false,"excerpt":"scope The phenomenon of deBroglie waves evolved from textbook experiments on the foundations of quantum mechanics to a new kind of optics based on matter waves. Today, this field extends from experiments about the wave-particle dualism and decoherence, over coherent optics, non-linear optics, quantum atom optics and optics in periodic\u2026","rel":"","context":"Similar post","block_context":{"text":"Similar post","link":""},"img":{"alt_text":"","src":"https:\/\/i0.wp.com\/www.matterwaveoptics.eu\/FOMO2024\/wp-content\/uploads\/2024\/04\/venue_comp-1-1.jpg?resize=350%2C200&ssl=1","width":350,"height":200,"srcset":"https:\/\/i0.wp.com\/www.matterwaveoptics.eu\/FOMO2024\/wp-content\/uploads\/2024\/04\/venue_comp-1-1.jpg?resize=350%2C200&ssl=1 1x, https:\/\/i0.wp.com\/www.matterwaveoptics.eu\/FOMO2024\/wp-content\/uploads\/2024\/04\/venue_comp-1-1.jpg?resize=525%2C300&ssl=1 1.5x, https:\/\/i0.wp.com\/www.matterwaveoptics.eu\/FOMO2024\/wp-content\/uploads\/2024\/04\/venue_comp-1-1.jpg?resize=700%2C400&ssl=1 2x"},"classes":[]},{"id":37,"url":"https:\/\/www.matterwaveoptics.eu\/FOMO2024\/about\/","url_meta":{"origin":1556,"position":1},"title":"About","author":"wvk_3vn943","date":"April 9, 2024","format":false,"excerpt":"scope The phenomenon of deBroglie waves evolved from textbook experiments on the foundations of quantum mechanics to a new kind of optics based on matter waves. Today, this field extends from experiments about the wave-particle dualism and decoherence, over coherent optics, non-linear optics, quantum atom optics and optics in periodic\u2026","rel":"","context":"Similar post","block_context":{"text":"Similar post","link":""},"img":{"alt_text":"","src":"","width":0,"height":0},"classes":[]},{"id":653,"url":"https:\/\/www.matterwaveoptics.eu\/FOMO2024\/registration\/abstract-submission\/","url_meta":{"origin":1556,"position":2},"title":"Abstract Submission","author":"wvk_3vn943","date":"May 23, 2024","format":false,"excerpt":"You can submit your abstracts during the registration. Abstracts can be submitted for either posters and\/or contributed talks. Given that the number of slots for contributed talks are very limited, the conference's programme committee will select the talks. All submitted abstracts will also be considered for posters. Note that all\u2026","rel":"","context":"Similar post","block_context":{"text":"Similar post","link":""},"img":{"alt_text":"","src":"","width":0,"height":0},"classes":[]}],"jetpack_sharing_enabled":true,"_links":{"self":[{"href":"https:\/\/www.matterwaveoptics.eu\/FOMO2024\/wp-json\/wp\/v2\/pages\/1556","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/www.matterwaveoptics.eu\/FOMO2024\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/www.matterwaveoptics.eu\/FOMO2024\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/www.matterwaveoptics.eu\/FOMO2024\/wp-json\/wp\/v2\/users\/1"}],"replies":[{"embeddable":true,"href":"https:\/\/www.matterwaveoptics.eu\/FOMO2024\/wp-json\/wp\/v2\/comments?post=1556"}],"version-history":[{"count":5,"href":"https:\/\/www.matterwaveoptics.eu\/FOMO2024\/wp-json\/wp\/v2\/pages\/1556\/revisions"}],"predecessor-version":[{"id":1752,"href":"https:\/\/www.matterwaveoptics.eu\/FOMO2024\/wp-json\/wp\/v2\/pages\/1556\/revisions\/1752"}],"wp:attachment":[{"href":"https:\/\/www.matterwaveoptics.eu\/FOMO2024\/wp-json\/wp\/v2\/media?parent=1556"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}